Neuraminidase inhibitors and uses thereof

ABSTRACT

The invention is related to various methods for inhibiting or reducing biofilm formation, treating a biofilm production-related disorder, preventing biofilm formation, and screening for neuraminidase inhibitors.

GOVERNMENT INTERESTS

The work described herein was supported in whole, or in part, by National Institute of Health Grant No. RO1 DK29693. Thus, the United States Government has certain rights to the invention.

All patents, patent applications and publications cited herein are hereby incorporated by reference in their entirety. The disclosures of these publications in their entireties are hereby incorporated by reference into this application in order to more fully describe the state of the art as known to those skilled therein as of the date of the invention described and claimed herein.

This patent disclosure contains material that is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure as it appears in the U.S. Patent and Trademark Office patent file or records, but otherwise reserves any and all copyright rights.

BACKGROUND OF THE INVENTION

Many respiratory pathogens including Hemophilus influenzae (H. influenzae), Streptococcus pneumoniae (S. pneumoniae), and Pseudomonas aeruginosa (P. aeruginosa) express neuraminidases that can cleave α-2,3 linked sialic acids from glycoconjugates. As mucosal surfaces are heavily sialylated, neuraminidases have been thought to modify epithelial cells by exposing potential bacterial receptors. However, in contrast to neuraminidase produced by the influenza virus, a role for bacterial neuraminidase in pathogenesis has not been clearly established, especially as it pertains to regulating the formation of biofilms.

SUMMARY OF THE INVENTION

One aspect of the present invention provides a method for reducing or inhibiting bacterial biofilm formation where a surface is contacted with a bacterial neuraminidase inhibitor for a sufficient time so as to bacterial modulate neuraminidase activity. The neuraminidase inhibitor modulates the activity or the expression of a neuraminidase, thereby resulting in inhibiting or reducing the formation of the biofilm. In one embodiment, the surface comprises a biofilm. A biofilm can be produced by a bacterium, a virus, a protozoan, a fungus, or by any combination of the organisms mentioned. In one embodiment, the biofilm is a bacterial biofilm. In some embodiments, the neuraminidase is a bacterial neuraminidase. In other embodiments the neuraminidase inhibitor targets bacterial neuraminidases. In some embodiments of the invention, the expression or the activity of the neuraminidase in the biofilm is reduced after the neuraminidase inhibitor is applied to a surface. In one embodiment, the neuraminidase inhibitor is an antibody that specifically binds to the NanA protein of S. pneumoniae or a fragment thereof; an antisense RNA or antisense DNA that inhibits expression of a NanA polypeptide; a siRNA that specifically targets a NanA gene, a peptide comprising at least 10 amino acids of SEQ ID NO: 2 wherein the peptide competes with endogenous NanA for ligand binding; or a combination thereof. In specific embodiments, the neuraminidase inhibitor comprises oseltamivir, peramivir, zanamivir, or a variant thereof.

In further embodiments, he neuraminidase inhibitor is a compound comprising Formula (I):

wherein,

R¹ is H, halogen, cyano, azido, nitro, C₁-C₆ alkyl, or C₁-C₆ alkoxy;

R² is H, halogen, cyano, azido, nitro, C₁-C₆ alkyl, or C₁-C₆ alkoxy;

R³ is H, —CO₂R⁴ or —CON(R⁴)₂;

each R⁴ is, independently, H or C₁-C₆ alkyl;

X is —CH₂—, —(C═O)—, —(C═NH)—, —(C═N—O—C₁-C₆-alkyl)-, or —(C═S)—; and

Y is —(C═O)—, —(C═NH)—, —(C═N—O—C₁-C₆-alkyl)-, or —(C═S)—,

or a pharmaceutically acceptable salt or hydrate thereof.

In some embodiments, the neuraminidase inhibitor is a compound comprising Formula (A):

In some embodiments, the neuraminidase inhibitor is a compound comprising Formula (X):

Any biofilm-forming organism can comprise the biofilm mass. In certain embodiments, those organisms are viruses, bacteria, protozoa, and fungi. In various embodiments, the biofilm comprises a Gram-negative bacterium. In other embodiments, the biofilm comprises a Gram-positive bacterium. In some embodiments, the bacterium is Streptococcus and in other embodiments the Gram-positive bacteria are Streptococcus (e.g., S. pneumoniae) while in other embodiments, the Gram-negative bacteria are Haemophilus (e.g., Haemophilus influenzae); Pseudomonas (P. aeruginosa), or Vibrio (e.g., Vibrio cholerae). A biofilm can be found on various surfaces and such a surface can be contacted with a neuraminidase inhibitor. In one embodiment, the surface comprises a cellular surface of a subject, an in vitro surface, or an oral surface of a subject. In some useful embodiments, the surface comprises a prosthetic graft, a catheter, a wound dressing, a wound site, a medical device, a contact lens, an implanted device, an oral device, a pipe, or industrial equipment. In further embodiments of the invention, the contacting comprises administering the neuraminidase inhibitor to a subject via subcutaneous, intra-muscular, intra-peritoneal, or intravenous injection; infusion; oral, nasal, or topical delivery; or a combination thereof. In some embodiments, the subject is a human, mouse, rat, bird, dog, cat, cow, horse, or pig. In another embodiment, the neuraminidase inhibitor is applied to the surface of a prosthetic graft to be introduced into a subject. In other embodiments, the neuraminidase inhibitor is applied to the surface of a catheter to be implanted into a subject. In yet further embodiments, the neuraminidase inhibitor is applied to the surface of a wound dressing to be applied on or in a subject. In other embodiments, the neuraminidase inhibitor is applied to the surface of a wound site on a subject. In additional embodiments, the neuraminidase inhibitor is applied to the surface of a medical device to be implanted or inserted into a subject. The subject in many of these instances can harbor the biofilm or has the propensity to form a biofilm. The neuraminidase inhibitor also can be administered to the subject prior to, or during, or after the implantation or insertion of a prosthetic graft, medical device, or a catheter, the application of the wound dressing or to the wound site.

The neuraminidase inhibitor according to the method of the invention can be applied to a surface where a biofilm has formed. In one embodiment, the surface comprises a contact lens, an implanted device, an oral device, a pipe, or industrial equipment. In other embodiments, industrial equipment is found in a GMP facility. In some embodiments, the industrial equipment comprises a plumbing system. In other embodiments, the surface where a biofilm has formed comprises an oral surface of a subject. In some embodiments, the biofilm is associated with dental caries while in other embodiments it is associated with periodontal disease. In some embodiments, the neuraminidase inhibitor is in a formulation of a paste, a liquid, a powder, a gel, or a tablet. According to an embodiment of the invention, the neuraminidase inhibitor can be in a paste formulation that can further comprise an abrasive, such as toothpaste. In other embodiments, the neuraminidase inhibitor can be a liquid formulation, such as a mouthwash.

A second therapeutic composition, different than the neuraminidase inhibitor, can also be administered to a subject. In some embodiments of the invention, administration occurs sequentially while in others administration occurs simultaneously. In various embodiments, the therapeutic composition comprises an antibiotic. In yet additional embodiments, the antibiotic comprises a cephalosporin, a macrolide, a penicillin, a quinolone, a sulfonamide, and a tetracycline, or any combination of the listed antibiotics.

Another aspect of the current invention provides for methods of treating a biofilm production-related disorder in a subject in need thereof. The method comprises administering to the subject an effective amount of a bacterial neuraminidase inhibitor that reduces biofilm formation in the subject. In one embodiment, the neuraminidase inhibitor is a compound comprising Formula (X), Formula (I), or Formula (A), as described herein. In another embodiment, the neuraminidase inhibitor is an antibody that specifically binds to the NanA protein of S. pneumoniae or a fragment thereof; an antisense RNA or antisense DNA that inhibits expression of a NanA polypeptide; a siRNA that specifically targets a NanA gene, a peptide comprising at least 10 amino acids of SEQ ID NO: 2 wherein the peptide competes with endogenous NanA for ligand binding; or a combination thereof. A reduction or inhibition in the growth of biofilm production-related bacteria in the subject can then be determined. A reduction in bacterial growth is indicative of the reduction in or inhibition of biofilm production in the subject. Thus, the method is useful for treating the biofilm production-related disorder. In one embodiment, the subject being treated is a mammal, whereas in other embodiments the subject is a human. In some embodiments, the subject can also be a mouse, rat, bird, dog, cat, cow, horse, or pig. A biofilm production-related disorder of the invention can be a disorder or disease that is characterized by a disease-related growth of bacteria, which can result in the establishment of a biofilm. In other embodiments, the disorder affects an epithelial surface, a mucosal surface, or a combination of those surfaces. In further embodiments of the invention, the surface is a lung surface. In some embodiments, the biofilm production-related disorder is caused by a bacterium, such as a Gram-negative or Gram-positive bacterium. In other embodiments, the bacterium comprises Streptococcus (such as S. pneumoniae); Haemophilus (such as Haemophilus influenzae); or Vibrio (such as Vibrio cholerae). In some embodiments, the bacterium is S. pneumoniae. In yet further embodiments, the disorder is pneumonia, cystic fibrosis (CF), otitis media, or chronic obstructive pulmonary disease (COPD). According to the invention, in additional embodiments, the disorder is a medical device-related bacterial infection. The infection arises from the device being implanted or inserted into the subject.

The reduction in bacterial growth can be indicative of the reduction in or inhibition of biofilm production in a subject. In some embodiments, the growth of biofilm production-related bacteria can be determined by measuring the biofilm production-related bacteria in a biological sample. In other embodiments, the presence or growth of biofilm production-related bacteria is measured by detecting the presence of antigens of biofilm production-related bacteria in a biological sample. The biological sample can be blood, serum, sputum, lacrimal secretions, semen, urine, vaginal secretions, or a tissue sample. For example, an antibody to S. pneumoniae components can be used as a test for colonization/infection in a subject afflicted with a biofilm production-related condition or disorder, wherein the presence of Streptococcus antigens is detected in a biological sample, such as blood. These antibodies can be generated according to methods well established in the art or can be obtained commercially (for example, from Abcam, Cambridge, Mass.; Cell Sciences Canton, M A; Novus Biologicals, Littleton, Colo.; or GeneTex, San Antonio, Tex.). The reduction in the growth of biofilm production-related bacteria can also be measured by chest x-rays, or by a pulmonary function test (PFT), such as spirometry or forced expiratory volume (FEV₁) as described below.

In various embodiments of the invention, the biofilm comprises viruses, protozoa, fungi, or bacteria, such as a Gram-positive bacterium and a Gram-negative bacterium. In some embodiments, the bacterium is Streptococcus (such as S. pneumoniae); Haemophilus (such as Haemophilus influenzae); or Vibrio (such as Vibrio cholerae). In other embodiments, the bacterium is S. pneumoniae. According to the invention, a neuraminidase inhibitor that is applied to a surface likely to develop a biofilm modulates the activity or expression of a targeted neuraminidase, such as a bacterial neuraminidase. In some embodiments, the expression of the neuraminidase is reduced, while in other embodiments, the activity of the neuraminidase is reduced. In various embodiments, the neuraminidase inhibitor is applied as a formulation comprising a paste, liquid, powder, gel, or tablet. In certain embodiments, the industrial surface to which the neuraminidase inhibitor is applied is part of a plumbing system.

A useful neuraminidase inhibitor according to the invention can be any compound, small molecule, peptide, protein, aptamer, ribozyme, RNAi, or antisense oligonucleotide, and the like. In one embodiment, the neuraminidase inhibitor is a viral neuraminidase inhibitor. In other embodiments, the viral neuraminidase inhibitor comprises oseltamivir, peramivir, zanamivir, or a variant thereof.

Other aspects of the invention provide screening methods for identifying a compound that modulates neuraminidase activity. The method comprises providing an electronic library of test compounds stored on a computer, then providing atomic coordinates for at least twenty amino acid residues of Streptococcus neuraminidase listed in Table 2, wherein the coordinates have a root mean square deviation therefrom, with respect to at least 50% of the Cα atoms, of not greater than about 2 Å, in a computer readable format. The atomic coordinates are then converted into electrical signals readable by a computer processor to generate a three-dimensional model of the neuraminidase. A data processing method is then performed, wherein electronic test compounds from the library are superimposed upon the three-dimensional model of the neuraminidase. Whether a test compound fits into the binding pocket of the three-dimensional model of the neuraminidase is subsequently determined, enabling the identification of which compound would modulate the activity of the neuraminidase.

In another aspect of the invention, the method for identifying a compound that modulates neuraminidase activity comprises providing an electronic library of test compounds stored on a computer, then providing atomic coordinates listed in Table 2 in a computer readable format for at least 5, 6, 7, 8, 9, 10, 11, or 12 amino acid residues located within about 10 Å of the Streptococcus neuraminidase active site, wherein the residues comprise 5 or more of the following residues: Arg347, Arg366, Asp372, Asp417, Ile442, Phe443, Phe565, Tyr590, Gln602, Glu647, Arg663, Tyr695, Tyr752, or Arg 721. The atomic coordinates are then converted into electrical signals readable by a computer processor to generate a three-dimensional model of the neuraminidase active site. A data processing method is then performed, wherein electronic test compounds from the library are superimposed upon the three-dimensional model of the neuraminidase active site. Whether a test compound fits into the binding pocket of the three-dimensional model of the neuraminidase is subsequently determined, enabling the identification of which compound would modulate the activity of the neuraminidase.

The methods described above can further comprise obtaining or synthesizing the compound determined to to bind to NanA or modulate the neuraminidase activity; contacting a bacterium with the compound in vitro; and determining whether the compound modulates neuraminidase activity using a biological assay. In one embodiment, the bacterium is a Gram-negative bacterium. In a further embodiment, the bacterium is a Gram-positive bacterium. In another embodiment, the bacterium is Streptococcus (i.e., S. pneumoniae), Pseudomonas (such as P. aeruginosa), Haemophilus, (i.e Haemophilus influenzae), or Vibrio (such as Vibrio cholerae). In further embodiments, the biological assay comprises a biofilm assay, an adherence assay, or a combination of the two mentioned assays. In one embodiment, the biological assay entails contacting a surface harboring a biofilm (for example, produced by a pathogenic organism, such as a bacterium) in vitro with a test neuraminidase inhibitor, and then determining whether the test neuraminidase inhibitor inhibits biofilm formation at the surface. Inhibition of biofilm formation is indicative of the ability of the test neuraminidase inhibitor to inhibit the pathogenic infection, such as a bacterial infection. In one embodiment, the pathogen is a Gram-positive bacterium, such as S. pneumoniae. Thus, the method can be used for identifying neuraminidase inhibitors that can inhibit a pathogenic infection.

In a further aspect, the invention provides a compound identified by the screening methods above, wherein the compound binds to the neuraminidase active site, and comes within 10 Å of amino acid residues listed in Table 3. In one embodiment, the compound inhibits or reduces biofilm formation. In another embodiment, the compound is a peptide that binds to a neuraminidase, such as an anti-neuraminidase antibody or a binding fragment thereof. In a further embodiment, the peptide interacts with a protein having the amino acid sequence of SEQ ID NO: 2. In some embodiments, the compound interacts with a protein having the amino acid sequence of SEQ ID NO: 2.

According to the methods of the present invention, a candidate or test neuraminidase inhibitor can be any compound, small molecule, peptide, protein, aptamer, ribozyme, RNAi, or antisense oligonucleotide, and the like. In one embodiment, the test inhibitor is a peptide that binds to a neuraminidase. In further embodiments, the neuraminidase can be a bacterial neuraminidase. In other embodiments, the test inhibitor is an anti-neuraminidase antibody or a binding fragment thereof. In specific embodiments of the invention, the test inhibitor is a peptide that interacts with a protein comprising the amino acid sequence of SEQ ID NO: 2. In various embodiments, the test inhibitor is a viral neuraminidase inhibitor while in other embodiments the viral neuraminidase inhibitor comprises oseltamivir, peramivir, zanamivir, or a variant thereof. In some embodiments, the neuraminidase inhibitor is compound of Formula (X), Formula (A), or Formula (I), as described herein. In further embodiments of the invention, the test inhibitor is a peptide that interacts with a protein having the amino acid sequence of SEQ ID NO: 2.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 shows schematic representations of the structure of S. pneumoniae NanA. FIG. 1A depicts the β-strands shown in cyan, α-helices in yellow, and connecting loops in magenta. The inhibitor NANA is shown as a stick model, in black for carbon atoms. FIG. 1B depicts the final 2F_(o)-F_(c) electron density at 1.7 Å resolution for the inhibitor NANA, contoured at 1σ, in a boat conformation. FIG. 1C is a stereo drawing showing detailed interactions between NANA (black) or DANA (orange) with the active site of NanA. FIG. 1D show the molecular surface of NanA in the active region, colored by electrostatic potential with NANA. The figures were created with Pymol [A76] and Grasp [A77].

FIG. 2 shows schematic representations of the structure of P. aeruginosa NanPs. In FIG. 2A, the β-strands are shown in green, α-helices in yellow, and connecting loops in magenta. FIG. 2B depicts the molecular surface of NanPs in the active site region, colored by electrostatic potential. The view is the same as that of FIG. 1D, and the position of NANA bound to NanA is shown for reference. FIG. 2C shows the structural differences between the active site regions NanPs (in green) and NanA (in cyan). Residue numbers in green are for NanPs, and those in blue for NanA.

FIG. 3 is a bar graph showing the activity of P. aeruginosa neuraminidase mutations. Site-directed mutations were made within the active site of P. aeruginosa neuraminidase or truncation in the C-terminus (deleting residues 334-438) and purified protein used to determine neuraminidase activity compared to wild-type enzyme (WT, control) using the fluorogenic substrate 2′-(4-methylumbelliferyl)-α-D-N-acetylneuraminic acid. *p-value<0.05.

FIG. 4 is a schematic representation showing the phylogenetic analysis of neuraminidases. Shown is the unrooted phylogenetic network for our broad survey of the neuraminidase phylogeny. It is the strict consensus of 3 most parsimonious trees (step s=45885, consistency index=0.326, retention index=0.385, rescaled consistency=0.125). Solid circles indicate branches with bootstrap values greater than 80%. Grey circles indicate bootstrap values between 50-80%. Open circles indicate bootstrap values for nodes with less than 50% that agreed with the consensus bootstrap tree. Branches without bootstrap designation are found in the maximum parsimony tree but not the bootstrap tree.

FIG. 5 shows bar graphs of the activity of S. pneumoniae neuraminidase. FIG. 5A respresents the titration of activity using concentrations of purified NanA as labeled. FIG. 5B demonstrates the effect of divalent cations on activity purified NanA relative to wild-type enzyme (control). Assay was performed using 2′-(4-methylumbelliferyl)-α-D-N-acetylneuraminic acid (MNN). *p-value<0.05.

FIG. 6 shows bar graphs of the inhibition of S. pneumoniae NanA neuraminidase activity by sialic acid compounds NANA and DANA. Activity is shown as a percentage of activity of NanA without inhibitor (control). Assay was performed using 2′-(4-methylumbelliferyl)-α-D-N-acetylneuraminic acid. *p-value<0.05.

FIG. 7 shows bar graphs of the release of sialic acid from the surface of airway epithelial cells by S. pneumoniae. FIG. 7A represents exposure of aGM1 by concentrated supernatant from wild-type and nanA strains. FIG. 7B shows exposure of aGM1 with purified NanA. Cells were stained with antibody to aGM1 and quantified by flow cytometry and are shown as the fold change compared to media only control. *p-value<0.05.

FIG. 8 shows graphs of biological activities of S. pneumoniae WT and nanA mutant. FIG. 8A demonstrates adherence to 16HBE airway epithelial cells. FIG. 8B depicts mouse colonization data. Mice were infected with 10⁵ cfu bacteria and cfu bacteria in the lung determined and Polymorphonuclear monocytes (PMNs) (FIG. 8C) were quantified by flow cytometry. For FIGS. 8B-C, n=5 for both groups, data not statistically significant (Mann Whitney non-parametric test).

FIG. 9 is a bar graph depicting S. pneumoniae biofilm formation. Encapsulated (D39 background) strains were grown in microtitre trays without (solid bars) or with (striped bars) previous epithelial cell exposure. Unencapsulated R6 strains were grown in microtitre trays without epithelial cell exposure. Biofilms were measured by crystal violet (CV) staining Representative experiments are shown * p-value<0.05.

FIG. 10 is a bar graph showing inhibition of neuraminidases by oseltamivir. Activity is expressed as a percentage of activity without inhibitor. Assay was performed using 2′-(4-methylumbelliferyl)-α-D-N-acetylneuraminic acid. *p-value<0.05.

FIG. 11 depicts graphs demonstrating inhibitory activity of candidate neuraminidase inhibitors. FIG. 11A is a graphing showing the screening of candidate inhibitors performed with NanA (black bars) and NanPs (gray bars) and inhibitors at 100 μM concentration in the neuraminidase assay. FIGS. 11B-C are dose response curves for NanPs and NanA neuraminidases with lead compound XX1. Data was fitted with a power-based trend line. Shown is percentage activity compared to the vehicle (DMSO) only control.

FIG. 12 are graphs that depict S. pneumoniae biofilm formation. FIG. 12A is a graph showing biofilm formation using encapsulated (D39 background) strains that were grown in microtitre trays without (solid bars) or with (striped bars) previous epithelial cell exposure. Unencapsulated R6 strains were grown in microtitre trays without epithelial cell exposure. FIG. 12B is a graph showing incubation with NANA results in reduced biofilm formation of the wild-type (D39) strain. Biofilms were measured by crystal violet (CV) staining Biofilm formation was normalized to growth and expressed as a percentage when compared to the R6 wild-type strain. * p-value<0.05.

FIG. 13 are photgraphs showing imaging of S. pneumoniae biofilms. FIG. 13A are images of CV stained biofilms in microtitre wells of WT and nanA strains in D39 (after epithelial cell exposure) and R6 backgrounds. FIG. 13B are photographic images of fluorescence microscopy of D39 WT and nanA biofilms grown in microtitre trays after epithelial cell exposure and stained with live/dead BacLight stain. Magnification was 200×. FIG. 13C is an image of a 3D reconstruction of biofilm structure seen with the WT strain in FIG. 13B. FIG. 13D is an image of a 3D reconstruction of cells seen with the nanA strain in FIG. 13B.

FIG. 14 depicts the inhibitory activity of NanA inhibitors. FIG. 14A is a graphs showing the screening of candidate inhibitors that was performed with NanA and inhibitors at 100 μM concentration in the neuraminidase assay. FIG. 14B is a dose response curve for NanA with lead compound XX1. Data was fitted with a logarithmic-based trend line. Shown is percentage activity compared to the vehicle (DMSO) only control. FIG. 14C is a bar graph that shows biofilm formation of wild-type D39 grown in the presence of XX1 during epithelial cell exposure and growth in microtitre trays. The nanA strain is shown as a reference. Biofilm formation was normalized to growth and expressed as a percentage when compared to the wild-type control. FIG. 14D is a schematic of the chemical structure of XX1. *p-value<0.05.

FIG. 15 is a schematic showing the synthesis of compounds of Formula I (Scheme 1)

FIG. 16 is a diagram of a synthetic scheme showing that compounds of the invention can be tautomerized (Scheme 2).

DETAILED DESCRIPTION OF THE INVENTION

The invention is related to various methods for inhibiting biofilm formation, treating a biofilm production-related disorder, preventing biofilm formation, and screening for neuraminidase inhibitors. The invention also encompasses a mutant bacterial strain with a deletion in a neuraminidase gene.

DEFINITIONS

All scientific and technical terms used in this application have meanings commonly used in the art unless otherwise specified. As used in this application, the following words or phrases have the meanings specified.

As used herein, the term “inhibitor of biofilm formation,” or “biofilm synthesis inhibitor” (such as a neuraminidase inhibitor) encompasses an agent that inhibits (e.g., disrupts) the attachment of microorganisms onto a surface, to the biofilm matrix itself, to other cells comprising the biofilm, or a combination thereof, and/or inhibits the ability of such microorganisms to produce, synthesize and/or accumulate biofilm on a surface.

The terms “disorder” and “disease” are used herein interchangeably for a condition in a subject. A disorder is a disturbance or derangement that affects the normal function of the body of a subject. A disease is a pathological condition of an organ, a body part, or a system resulting from various causes, such as infection, genetic defect, or environmental stress that is characterized by an identifiable group of symptoms. A disorder or disease can refer to a biofilm production-related disorder of the invention that is characterized by a disease-related growth of bacteria in that a biofilm is established.

The terms “prevent,” “preventing,” and “prevention” refer herein to the inhibition of the development or onset of a disorder or the prevention of the recurrence, onset, or development of one or more symptoms of a disorder in a subject resulting from the administration of a therapy (e.g., a prophylactic or therapeutic agent), or the administration of a combination of therapies (e.g., a combination of prophylactic or therapeutic agents).

As used herein, to “block” or “inhibit” a molecule, signal, or a receptor means to interfere with the binding of, or activation of the molecule, signal, or a receptor as detected by a test recognized in the art (such as binding assays). Blockage or inhibition can be partial or total, resulting in a reduction, increase, or modulation in the activation of the molecule, signal, or a receptor as detected by a test recognized in the art.

“Binding” refers to the interaction or association of a molecule with another entity, such as its target. This interaction can be covalent or noncovalent. The interaction of a molecule and its target site can be regulated by compositions of the invention. For example, administration of a neuraminidase inhibitor or a derivative thereof can block the action of its target, a neuraminidase.

As used herein, a “fragment” or “portion” is any part or segment of a molecule. For example, a fragment of a molecule includes that part that recognizes and binds its natural target. In the case of an antibody, the fragment is a binding portion of the whole antibody; in the case of a neuraminidase inhibitor, the fragment is that smaller portion of the entire inhibitor.

A “plumbing system” encompasses the faucets, valves, plumbing fixtures, piping (metal, plastic, and the like), water storage tanks, water recylcers, coils, bilges, hoses, tubing, and backflow preventers as well as their respective interior and exterior surfaces.

Aspects of the invention are related to methods of inhibiting biofilm formation. The method entails applying a neuraminidase inhibitor to the biofilm and measuring a reduction in the formation of a biofilm. The neuraminidase inhibitor modulates the activity or the expression of the neuraminidase (for example, a bacterial neuraminidase), thereby inhibiting biofilm formation.

Neuraminidases (sialidases) are produced by a wide variety of mucosal pathogens, ranging from S. pneumoniae in the airway to Vibrio cholerae in the gut (Vimr et al., (2004) Microbiol. Mol Biol. Rev. 68:132-153). While the central role of viral neuraminidase in pathogenesis of influenza is established (Colman (1994) Protein. Sci. 3:1687-1696) and provides a target for both vaccines and chemotherapy, the contribution of bacterial neuraminidase to the pathogenesis of infection is not as clearly defined. Neuraminidase producing species such as Hemophilus (Vimr et al., (2002) Trends. Microbiol. 10:254-257), Streptococcus pneumoniae (Camara et al., (1994) Infect. Immun. 62:3688-3695; King et al., (2004) Mol. Microbiol. 54:159-171), and P. aeruginosa (Cacalano et al., (1992) J. Clin. Invest. 89:1866-1874) share a common ecological niche, colonizing the heavily sialylated secretions and surfaces of the upper respiratory tract. Although each can bind to asialylated glycolipids exposed by neuraminidase activity (Krivan et al., (1988) Proc. Natl. Acad. Sci. U.S.A. 85:6157-6161), they differ substantially in their ability to either metabolize (Godoy et al., (1993) Infect. Immun. 61:4415-4426) or incorporate sialic acid into surface structures (Bouchet et al., (2003) Proc. Natl. Acad. Sci. U.S.A. 100:8898-8903). Thus, bacterial neuraminidases can interact with both microbial as well as eukaryotic glycoconjugates (Vimr et al., (2004) Microbiol. Mol. Biol. Rev. 68:132-153).

Viral neuraminidase inhibitors have been very useful in the prevention and treatment of influenza, targeting similar high-risk patient populations, such as those patients afflicted with pneumonia, CF, or chronic obstructive pulmonary disease (COPD). The NanPs neuraminidase, for example, of P. aeruginosa shares many conserved elements and folds in the manner predicted for other microbial neuraminidases (Roggentin et al., (1989) Glycoconj. J. 6:349-353; Rothe et al., (1991) Mol. Gen. Genet. 226:190-197).

P. aeruginosa (a Gram-negative bacterium) is a major opportunistic pathogen, an important cause of nosocomial pneumonia as well as the chief cause of lung infection in cystic fibrosis (CF), and is the most common lethal genetic disease of Caucasians. Over two decades ago, neuraminidase production in isolates of P. aeruginosa from CF patients was described and indicated to contribute to pulmonary infection (Leprat et al., (1980) Ann. Microbiol. (Paris) 131B:209-222).

Streptococcus pneumoniae, or pneumococcus, is a Gram-positive, diplococcus, alpha-hemolytic anaerobe that is a common inhabitant of the nasopharyngeal region. S. pneumoniae causes many types of infection other than pneumonia, including, but not limited to, meningitis, bacteremia (or septicaemia), acute sinusitis, otitis media, endocarditis, peritonitis, osteomyelitis, septic arthritis, pericarditis, cellulitis, and brain abscess. S. pneumoniae is the most common cause of bacterial meningitis in adults and children, and is one of the top two isolates found in ear infection, otitis media. Pneumococcal pneumonia is more common in the elderly and very young.

The capusle of S. pneumoniae is the most important element in its pathogenicity. Furthermore, nearly all S. pneumoniae clinical isolates have prominent sialidase activities. For example, the organism has been shown to encode 3 different neuraminidases: NanA, NanB, and NanC. For a further discussion, see Henriques-Normark et al., (2008) Nat Rev Microbiol. 6(11):827-37; and see Yao K H and Yang Y H., (2008) Vaccine, 26(35):4425-33.

The nucleotide sequence of S. pneumoniae neuraminidase (sialidase A; NanA) is shown in SEQ ID NO: 1. The polypeptide sequence of S. pneumoniae neuraminidase is depicted in SEQ ID NO:2. Sequence information related to NanA is accessible in public databases by GenBank Accession numbers NC_(—)008533 (for mRNA) and YP_(—)816960 (for protein).

SEQ ID NO: 1 is the S. pneumoniae wild type nucleotide sequence corresponding to the NanA (nucleotides 1-2994):

   1 atgattgtag gagcagtggt atttggaacg tctcctgttt tagctcaaga aggggcaagt   61 gagcaacctc tggcaaatga aactcaactt tcgggggaga gctcaaccct aactgataca  121 gaaaagagcc agccttcttc agagactgaa ctttctggca ataagcaaga acaagaaagg  181 aaagataagc aagaagaaaa aattccaaga gattactatg cacgagattt ggaaaatgtc  241 gaaacagtga tagaaaaaga agatgttgaa accaatgctt caaatggtca gagagttgat  301 ttatcaagtg aactagataa actaaagaaa cttgaaaacg caacagttca catggagttt  361 aagccagatg ccaaggcccc agcattctat aatctctttt ctgtgtcaag tgctactaaa  421 aaagatgagt acttcactat ggcagtttac aataatactg ctactctaga ggggcgtggt  481 tcggatggga aacagtttta caataattac aacgatgcac ccttaaaagt taaaccaggt  541 cagtggaatt ctgtgacttt cacagttgaa aaaccgacag cagaactacc taaaggccga  601 gtgcgcctct acgtaaacgg ggtattatct cgaacaagtc tgagatctgg caatttcatt  661 aaagatatgc cagatgtaac gcatgtgcaa atcggagcaa ccaagcgtgc caacaatacg  721 gtttgggggt caaatctaca gattcggaat ctcactgtgt ataatcgtgc tttaacacca  781 gaagaggtac aaaaacgtag tcaacttttt aaacgctcag atttagaaaa aaaactacct  841 gaaggagcgg ctttaacaga gaaaacggac atattcgaaa gcgggcgtaa cggtaaacca  901 aataaagatg gaatcaagag ttatcgtatt ccagcacttc tcaagacaga taaaggaact  961 ttgatcgcag gtgcagatga acgccgtctc cattcgagtg actggggtga tatcggtatg 1021 gtcatcagac gtagtgaaga taatggtaaa acttggggtg accgagtaac cattaccaac 1081 ttacgtgaca atccaaaagc ttctgaccca tcgatcggtt caccagtgaa tatcgatatg 1141 gtgttggttc aagatcctga aaccaaacga atcttttcta tctatgacat gttcccagaa 1201 gggaagggaa tctttggaat gtcttcacaa aaagaagaag cctacaaaaa aatcgatgga 1261 aaaacctatc aaatcctcta tcgtgaagga gaaaagggag cttataccat tcgagaaaat 1321 ggtactgtct atacaccaga tggtaaggcg acagactatc gcgttgttgt agatcctgtt 1381 aaaccagcct atagcgacaa gggggatcta tacaagggta accaattact aggcaatatc 1441 tacttcacaa caaacaaaac ttctccattt agaattgcca aggatagcta tctatggatg 1501 tcctacagtg atgacgacgg gaagacatgg tcagcgcctc aagatattac tccgatggtc 1561 aaagccgatt ggatgaaatt cttgggtgta ggtcctggaa caggaattgt acttcggaat 1621 gggcctcaca agggacggat tttgataccg gtttatacga ctaataatgt atctcactta 1681 aatggctcgc aatcttctcg tatcatctat tcagatgatc atggaaaaac ttggcatgct 1741 ggagaagcgg tcaacgataa ccgtcaggta gacggtcaaa agatccactc ttctacgatg 1801 aacaatagac gtgcgcaaaa tacagaatca acggtggtac aactaaacaa tggagatgtt 1861 aaactcttta tgcgtggttt gactggagat cttcaggttg ctacaagtaa agacggagga 1921 gtgacttggg agaaggatat caaacgttat ccacaggtta aagatgtcta tgttcaaatg 1981 tctgctatcc atacgatgca cgaaggaaaa gaatacatca tcctcagtaa tgcaggtgga 2041 ccgaaacgtg aaaatgggat ggtccacttg gcacgtgtcg aagaaaatgg tgagttgact 2101 tggctcaaac acaatccaat tcaaaaagga gagtttgcct ataattcgct ccaagaatta 2161 ggaaatgggg agtatggcat cttgtatgaa catactgaaa aaggacaaaa tgcctatacc 2221 ctatcattta gaaaatttaa ttgggacttt ttgagcaaag atctgatttc tcctaccgaa 2281 gcgaaagtga agcgaactag agagatgggc aaaggagtta ttggcttgga gttcgactca 2341 gaagtattgg tcaacaaggc tccaaccctt caattggcaa atggtaaaac agcacgcttc 2401 atgacccagt atgatacaaa aaccctccta tttacagtgg attcagagga tatgggtcaa 2461 aaagttacag gtttggcaga aggtgcaatt gaaagtatgc ataatttacc agtctctgtg 2521 gcgggcacta agctttcgaa tggaatgaac ggaagtgaag ctgctgttca tgaagtgcca 2581 gaatacacag gcccattagg gacatccggc gaagagccag ctccaacagt cgagaagcca 2641 gaatacacag gcccactagg gacatccggc gaagagccag ccccgacagt cgagaagcca 2701 gaatacacag gcccactagg gacagctggt gaagaagcag ctccaacagt cgagaagcca 2761 gaatttacag ggggagttaa tggtacagag ccagctgttc atgaaatcgc agagtataag 2821 ggatctgatt cgcttgtaac tcttactaca aaagaagatt atacttacaa agctcctctt 2881 gctcagcagg cacttcctga aacaggaaac aaggagagtg acctcctagc ttcactagga 2941 ctaacagctt tcttccttgg tctgtttacg ctagggaaaa agagagaaca ataa

SEQ ID NO: 2 is the S. pneumoniae wild type amino acid sequence corresponding to NanA (residues 1-997):

MIVGAVVFGTSPVLAQEGASEQPLANETQLSGESSTLTDTEKSQPSSETELSGNKQEQ ERKDKQEEKIPRDYYARDLENVETVIEKEDVETNASNGQRVDLSSELDKLKKLENAT VHMEFKPDAKAPAFYNLFSVSSATKKDEYFTMAVYNNTATLEGRGSDGKQFYNNY NDAPLKVKPGQWNSVTFTVEKPTAELPKGRVRLYVNGVLSRTSLRSGNFIKDMPDV THVQIGATKRANNTVWGSNLQIRNLTVYNRALTPEEVQKRSQLFKRSDLEKKLPEG AALTEKTDIFESGRNGKPNKDGIKSYRIPALLKTDKGTLIAGADERRLHSSDWGDIGM VIRRSEDNGKTWGDRVTITNLRDNPKASDPSIGSPVNIDMVLVQDPETKRIFSIYDMF PEGKGIFGMSSQKEEAYKKIDGKTYQILYREGEKGAYTIRENGTVYTPDGKATDYRV VVDPVKPAYSDKGDLYKGNQLLGNIYFTTNKTSPFRIAKDSYLWMSYSDDDGKTWS APQDITPMVKADWMKFLGVGPGTGIVLRNGPHKGRILIPVYTTNNVSHLNGSQSSRII YSDDHGKTWHAGEAVNDNRQVDGQKIHSSTMNNRRAQNTESTVVQLNNGDVKLF MRGLTGDLQVATSKDGGVTWEKDIKRYPQVKDVYVQMSAIHTMHEGKEYIILSNA GGPKRENGMVHLARVEENGELTWLKHNPIQKGEFAYNSLQELGNGEYGILYEHTEK GQNAYTLSFRKFNWDFLSKDLISPTEAKVKRTREMGKGVIGLEFDSEVLVNKAPTLQ LANGKTARFMTQYDTKTLLFTVDSEDMGQKVTGLAEGAIESMHNLPVSVAGTKLSN GMNGSEAAVHEVPEYTGPLGTSGEEPAPTVEKPEYTGPLGTSGEEPAPTVEKPEYTG PLGTAGEEAAPTVEKPEFTGGVNGTEPAVHEIAEYKGSDSLVTLTTKEDYTYKAPLA QQALPETGNKESDLLASLGLTAFFLGLFTLGKKREQ

Many pulmonary pathogens, including P. aeruginosa, bind to the GalNAcβ1-4Gal moiety exposed on asialylated glycolipids (Krivan et al., (1988) Proc. Natl. Acad. Sci. U.S.A. 85:6157-6161). Therefore, the ability to de-sialylate mucosal surfaces can contribute to bacterial colonization of the airways. The P. aeruginosa neuraminidase was shown to be osmo-regulated, and accordingly, to be consistent with expression in the milieu of the CF lung (Cacalano et al., (1992) J. Clin. Invest. 89:1866-1874). This neuraminidase is capable of exposing the receptor asialoganglioside gangliotetraosylceramide (asialoGM1) (Galβ1,2GalNAcβ1,4Galβ1,4Glcβ1,1Cer) on the surface of CF airway cells in vitro (Saiman et al., (1993) J. Clin. Invest. 92:1875-1880). However, data to document P. aeruginosa adherence to the airway surface in CF patients has been lacking (Baltimore et al., (1989) Am. Rev. Respir. Dis. 140:1650-1661). The current consensus is that organisms are predominantly entrapped in dehydrated secretions of the lung and by shedding proinflammatory products activate airway inflammation, a model that does not require direct attachment of organisms to the epithelial surface (Boucher (2004) Eur. Respir. J. 23:146-158). Nonetheless, analyses of P. aeruginosa gene expression in CF patients document that the NanPs (also referred to as PA2794) neuraminidase locus is one of the most highly expressed genes in this patient population in vivo (Lanotte et al., (2004) J. Med. Microbiol. 53:73-81). Unlike other respiratory pathogens, P. aeruginosa cannot use sialic acid as a carbon source nor does it contain sialic acid as a component of its LPS (Knirel et al., (1988) Acta. Microbiol. Hung. 35:3-24).

Gram-negative bacteria and Gram-positive bacteria, in addition to other unicellular organisms, can produce biofilms. Bacterial biofilms are surface-attached communities of cells that are encased within an extracellular polysaccharide matrix produced by the colonizing cells. Biofilm development occurs via a series of programmed steps, which include an initial attachment to a surface, formation of three-dimensional microcolonies, and the subsequent development of a mature biofilm. Biofilms can be composed of various microorganisms (such as viruses, bacteria, protozoa, and fungi) co-existing within the community and a particular cellular type can predominate. The more deeply a cell is located within a biofilm (such as, the closer the cell is to the solid surface to which the biofilm is attached to, thus being more shielded and protected by the bulk of the biofilm matrix), the more metabolically inactive the cells are. The consequences of this physiologic variation and gradient create a collection of bacterial communities where there is an efficient system established whereby microorganisms have diverse functional traits. A biofilm also is made up of various and diverse non-cellular components and can include, but are not limited to carbohydrates (simple and complex), lipids, proteins (including polypeptides), and lipid complexes of sugars and proteins (lipopolysaccharides and lipoproteins).

Bacterial biofilms exist in nature as well as in medical and industrial environments, such as a GMP facility. The biofilm can allow bacteria to exist in a dormant state for a certain amount of time until suitable growth conditions arise thus offering the microorganism a selective advantage to ensure its survival. However, this selection can pose serious threats to human health in that biofilms have been observed to be involved in about 65% of human bacterial infections (Smith (2005) Adv. Drug Deliv. Rev. 57:1539-1550; Hall-Stoodley et al., (2004) Nat. Rev. Microbiol. 2: 95-108). In fact, the majority of infections that occur in animals are biofilm-based. Biofilms are problematic with respect to respiratory conditions and diseases. Cystic Fibrosis (CF), one of the most common fatal genetic disorders in the United States, is most prevalent in Caucasians. It occurs on an average of one in every 3,300 live births, and causes the death of patients inflicted with CF by the age of 30. A mutation in a gene that encodes a chloride transport channel produces partially functional or completely dysfunctional transport channels. CF patients develop thick mucus secretions, which result from disruption of physiological salt/water balance due to the defective transport channel. The secretions clog bronchial tubes in the lungs and can additionally block exit passages of the pancreas and intestines, which lead to loss of function of these organs.

The mucus secretions are depleted of oxygen due to the metabolic activity of neutrophils, aerobic bacteria, and even epithelial cells. Within this mucus, P. aeruginosa, for example, is found to thrive. P. aeruginosa also is an important cause of nosocomial pneumonia. It infects the elderly, cancer chemotherapy patients, and immuno-compromised individuals.

Other medical conditions and treatments resulting in the development of undesirable biofilms include, but are not limited to, medical device-related infections, catheter-related infection (kidney, vascular, peritoneal), chronic otitis media, prostatitis, dental caries, wounds, acne, chronic obstructive pulmonary disease, infectious kidney stones, orthopedic implant infection, cystitis, bronchiectasis, bacterial endocarditis, Legionnaire's disease, osteomyelitis, and biliary stents (see US Appln. Pub. No. 20050158253). Thus, there is a need in the art for improved therapeutic approaches for the inhibition of biofilm formation and/or the reduction or elimination of biofilms.

Harsh treatments (such as chemicals and abrasives) have been used to reduce, prevent, or control biofilm formation. However, biological environments (for example, airways, the urinary tract, wound sites, etc) are sensitive to such harsh treatments. Thus, better methods are needed to control biofilm formation.

In industrial settings, biofilms (comprised of viruses, bacteria, protozoa, fungi, and the like) can adhere to surfaces, such as pipes and filters. Biofilms are problematic in industrial settings because they cause biocorrosion and biofouling in industrial systems, such as heat exchangers, oil pipelines, water systems, filters, and the like (Coetser et al., (2005) Crit. Rev. Micro. 31: 212-32). Thus, biofilms can inhibit fluid flow-through in pipes, clog water and other fluid systems, as well as serve as reservoirs for pathogenic bacteria, protozoa, and fungi. As such, industrial biofilms are an important cause of economic inefficiency in industrial processing systems.

Biofilms (also referred to as “slime residues”) can affect a wide variety of commercial, industrial, and processing operations (such as Good Manufacturing Practices (GMP) facilities). Since biofilms are ubiquitous in water handling systems, S. pneumoniae a gram-positive, ovoid bacterium (and/or other bacteria, protozoa, fungi and some viruses) can be associated with these biofilms. In many instances, S. pneumoniae is a substantial microbial component. Thus, there is a need for compositions and methods for controlling biofilms in commercial settings as well as biological environments.

The biofilm to be inhibited can be harbored by a subject, can be in vitro, or can be on the surface of an implantable/insertable device to be inserted into a subject.

For example, the terms can refer to a mammal including, but not limited to, and a primate (e.g., a monkey, such as a cynomolgous monkey, a chimpanzee, and a human). For example, the subject can be a non-human animal such as a bird (e.g., a quail, chicken, or turkey), a farm animal (e.g., a cow, goat, horse, pig, or sheep), a pet (e.g., a cat, dog, or guinea pig, rat, or mouse), or laboratory animal (e.g., an animal model for a disorder). The subject according to the invention is a human (e.g., an infant, child, adult, or senior citizen).

For example, the subject according to the invention can be an animal, such as a mammal. The mammal can be a non-primate (for example, a cow, pig, bird, sheep, goat, horse, cat, dog, rat, rabbit, mouse, and the like) or a primate (for example, a monkey, such as a cynomolgous monkey, a chimpanzee, a human). Non-limiting representative subjects according to the invention can be a human infant, a pre-adolescent child, an adolescent, an adult, or a senior/elderly adult.

A neuraminidase is an enzyme protein (for example, bacterial, viral, and the like) that cleaves terminal sialic acid residues from carbohydrate moieties on the surfaces of cells infected with such pathogens (for example, bacteria or viruses). This cleavage can result in the release of progeny pathogens from infected cells. Thus, administration of neuraminidase inhibitors can serve as a treatment that limits the severity and spread of pathogenic infections. The neuraminidase inhibitor can also modulate the expression of a neuraminidase via reducing the expression of the neuraminidase. The modulation of neuraminidase activity and/or expression (for example, its reduction) can be due to decreased transcription and/or translation of the neuraminidase molecule, which results in reduced amounts of neuraminidase synthesized by the cell.

Initial studies of the P. aeruginosa neuraminidase performed with purified enzyme, and in vitro analyses were consistent with a role for the enzyme in modifying airway epithelial cell surfaces to facilitate bacterial attachment (Cacalano et al., (1992) J. Clin. Invest. 89:1866-1874). Moreover, as CF airways were more readily modified than were normal airway cells, the Pseudomonas enzyme seemed to be important in that disease (Saiman et al., (1993) J. Clin. Invest. 92:1875-1880). However, it has been determined with tests performed under more physiological conditions in vivo using isogenic mutants that the P. aeruginosa neuraminidase has a different function. The neuraminidase, in addition to other bacterial neuraminidases, is important for biofilm production, as well as the cell-cell interactions that were critical in the initial colonization process. Recent studies indicate that there are significant homologies between the genes involved in sialic acid O-acetylation in many bacterial species (Lewis et al., (2006) J. Biol. Chem. 281:11186-11192). Just as autolysins are necessary for cell wall biosynthesis, enzymes that cleave carbohydrate linkages are necessary for the growth and modification of extracellular polysaccharides during biofilm biosynthesis (Vuong et al., (2004) J. Biol. Chem. 279:54881-54886). The invention provides for methods for inhibiting or reducing biofilm formation using neuraminidase inhibitors.

A neuraminidase inhibitor according to the invention can be used to inhibit the formation of a biofilm by any biofilm-forming organism, such as viruses, bacteria, protozoa, and fungi. Biofilms are comprised of various microorganisms, such as viruses, bacteria, protozoa, and fungi, (e.g., Borrelia sp., Streptococcus sp., Neisseria sp., Pseudomonas sp., Haemophilus sp., Vibrio sp., Bacillus sp., Klebsiella sp., Burkholderia sp., Salmonella sp., Legionella sp., P. aeruginosa, H. influenzae, V. cholerae, Yersinia pestis, Escherichia coli, Streptococcus pneumoniae, Proteus mirablis, and Francisella tularensis) and can be found in a live subject, in vitro, or on a surface, such as on or in the pipes of a plumbing system or industrial equipment.

The neuraminidase inhibitor to be used to inhibit biofilm formation in the method of the invention can be any compound, small molecule, peptide, protein, aptamer, ribozyme, RNAi, or antisense oligonucleotide and the like.

For example, a neuraminidase inhibitor according to the invention can be a protein, such as an antibody (monoclonal, polyclonal, humanized, and the like), or a binding fragment thereof, directed against a neuraminidase protein, such as a viral, protozoan, fungal, or bacterial neuraminidase (such as S. pneumoniae, H. influenzae, or V. cholerae). An antibody fragment can be a form of an antibody other than the full-length form and includes portions or components that exist within full-length antibodies, in addition to antibody fragments that have been engineered. Antibody fragments can include, but are not limited to, single chain Fv (scFv), diabodies, Fv, and (Fab′)₂, triabodies, Fc, Fab, CDR1, CDR2, CDR3, combinations of CDR's, variable regions, tetrabodies, bifunctional hybrid antibodies, framework regions, constant regions, and the like (see, Maynard et al., (2000) Ann. Rev. Biomed. Eng. 2:339-76; Hudson (1998) Curr. Opin. Biotechnol. 9:395-402). Antibodies can be obtained commercially, custom generated, or synthesized against an antigen of interest according to methods established in the art (Janeway et al., (2001) Immunobiology, 5th ed., Garland Publishing).

Additionally, a neuraminidase inhibitor can be a non-antibody peptide or polypeptide that binds to a bacterial neuraminidase. A peptide or polypeptide can be a portion of a protein molecule of interest other than the full-length form, and includes peptides that are smaller constituents that exist within the full-length amino acid sequence of a protein molecule of interest. These peptides can be obtained commercially or synthesized via liquid phase or solid phase synthesis methods (Atherton et al., (1989) Solid Phase Peptide Synthesis: a Practical Approach. IRL Press, Oxford, England). For example, the neuraminidase inhibitor can be a peptide that interacts with a Streptococcus neuraminidase, such as the protein encoded by the NanA gene (e.g., a protein comprising the amino acid sequence of SEQ ID NO:2). The peptide or protein-related neuraminidase inhibitors can be isolated from a natural source, genetically engineered or chemically prepared. These methods are well known in the art.

A neuraminidase inhibitor can also be a small molecule that binds to a neuraminidase and disrupts its function. Small molecules are a diverse group of synthetic and natural substances generally having low molecular weights. They are isolated from natural sources (for example, plants, fungi, microbes and the like), are obtained commercially and/or available as libraries or collections, or synthesized. Candidate neuramindase inhibitor small molecules can be identified via in silico screening or high-through-put (HTP) screening of combinatorial libraries. Most conventional pharmaceuticals, such as aspirin, penicillin, and many chemotherapeutics, are small molecules, can be obtained commercially, can be chemically synthesized, or can be obtained from random or combinatorial libraries as described below (Werner et al., (2006) Brief Funct. Genomic Proteomic 5(1):32-6). In one embodiment, the neuraminidase inhibitor is a compound of the Formula I:

wherein,

R¹ is H, halogen, cyano, azido, nitro, C₁-C₆ alkyl, or C₁-C₆ alkoxy;

R² is H, halogen, cyano, azido, nitro, C₁-C₆ alkyl, or C₁-C₆ alkoxy;

R³ is H, —CO₂R⁴ or —CON(R⁴)₂;

each R⁴ is, independently, H or C₁-C₆ alkyl;

X is —CH₂—, —(C═O)—, —(C═NH)—, —(C═N—O—C₁-C₆-alkyl)-, or —(C═S)—; and

Y is —(C═O)—, —(C═NH)—, —(C═N—O—C₁-C₆-alkyl)-, or —(C═S)—,

or a pharmaceutically acceptable salt or hydrate thereof.

In one embodiment, R¹ is a halogen. In a specific embodiment, R¹ is chlorine.

In one embodiment, R² is a C₁-C₆ alkoxy group. In specific embodiments, R² is methoxy or ethoxy. In a specific embodiment, R² is methoxy.

In one embodiment, R³ is —CONH₂. In another embodiment, R³ is —CO₂H.

In one embodiment, X is —(C═NH)—, —(C═NOH)—, —(C═NOMe)-, —(C═O)—, or —C(═S)—. In a specific embodiment, X is —(C═O)—.

In one embodiment, Y is —(C═NH)—, —(C═NOH)—, —(C═NOMe)-, —(C═O)—, or —C(═S)—. In a specific embodiment, Y is —(C═O)—.

In one embodiment, R¹, R², and R³ are not H.

Pharmaceutically acceptable salts are known in the art, and may be selected from those listed in Berge, et al. [“Pharmaceutical Salts,” J. Pharm. Sci., 66(1):1-19 (January 1977)]. In one embodiment, a pharmaceutically acceptable salt of a compound of Formula (I) is an acid addition salt, for example a hydrochloride, sulfate, or phosphate salt. In another embodiment, a pharmaceutically acceptable salt of a compound of Formula (I) is a base addition salt, for example a sodium, potassium, calcium, or ammonium salt. In another embodiment, the base addition salt is a tetrafluoroboro salt.

In one embodiment, a compound of Formula (I) is a zwitterion.

In one embodiment, the chiral centers marked by asterix in Formula (I) are both R.

In one embodiment, a Compound of Formula (I) is Compound A:

or a pharmaceutically acceptable salt or hydrate thereof.

Compound A is alternatively known by the chemical name, 3-((2R,3R)-3-(4-chlorobenzoyl)-2-(4-methoxyphenyl)-4,5-dioxopyrrolidin-1-yl)benzoic acid.

In some embodiments, the neuraminidase inhibitor is a compound comprising Formula (X):

In specific embodiments, the compound comprising Formula (X) is compound XX1 (see Examples 1 and 3, and FIGS. 11 and 14). The compound of XX1 is available from Schrödinger LLC, (Portland, Oreg., USA).

Compounds of Formula I can be made by methods known in the art, such as that in Scheme 1 (see FIG. 15).

Compounds of Formula I can be made by protecting a commercially-available benzyl maleate derivative, for example using the chlorobenzyl derivative to yield compound 3. Protecting group P¹ can be groups capable of forming an amide with amines, for examples esters such as methyl, or ethyl, or others suitable to accomplish the ring closure yielding compound 2. The ketones of resultant pyrrolidone derivative, e.g. 2, can be protected from the nucleophilic aromatic substitution reaction, for example as oxolanes, using standard techniques. Next, the benzoic acid group can be installed using nucleophilic aromatic substitution techniques on a suitably protected iodo-benzoic acid derivative. The nucleophilic aromatic substitution conditions can use an activating agent such as a metal cation complex as known in the art. Alternatively, the aromatic substitution can be accomplished with activated benzoic acid derivatives using a Stille coupling, a Suzuki cross-coupling, or a Buchwald-Hartwig cross-coupling. The substituent “X” is selected according to the coupling reaction conditions chosen. In one example of Stille conditions, X is SnR₃, such as SnBu₃. X can also be OTf, I, or B(OR)₃, where R is lower alkyl. The carboxylate and ketone groups can be protected before the nucleophilic aromatic substitution step as taught in Greene's Protective Groups in Organic Synthesis, 4^(th) Ed. Wuts and Greene, Eds. Wiley, 2007, which is incorporated herein by reference in its entirety. The product compound, e.g. 3, can be achiral or racemic. If such is the case, the chiral version can be obtained by chiral HPLC purification using techniques known to one skilled in the art.

Standard protection and deprotection techniques are known to one skilled in the art, and taught in Greene's Protective Groups in Organic Synthesis, 4^(th) Ed. Wuts and Greene, Eds. Wiley, 2007. Solvent and reaction conditions can be chosen as apparent to one skilled in the art in order to accomplish the depicted synthetic transformations. Such conditions can also be found in March, Advanced Organic Chemistry, 4^(th) Ed. Wiley (1992) and references cited therein, which is incorporated herein by reference in its entirety.

Compounds of the invention may also tautomerize, for example, as shown in Scheme 2 (see FIG. 16).

According to this invention, the neuraminidase inhibitor can also be an FDA approved viral neuraminidase inhibitor, such as the viral neuraminidase inhibitor oseltamivir (Tamiflu), zanamivir (Relenza; Glaxo Smith Kline, Research Triangle Park, NC), peramivir (BioCryst, Birmingham, Ala.), or a variant thereof. For example, the viral neuraminidase inhibitor, oseltamivir is an ethyl ester prodrug that can be purchased from Roche Laboratories (Nutley, N.J.). Amino acid sequences of FDA approved viral neuraminidase inhibitors can also be derivatized, for example, bearing modifications other than insertion, deletion, or substitution of amino acid residues, thus resulting in a variation of the original product (a variant). These modifications can be covalent in nature, and include for example, chemical bonding with lipids, other organic moieties, inorganic moieties, and polymers. For reviews on viral neuraminidase inhibitors, please see Klumpp et al., (2006) Curr. Top. Med. Chem. 6(5):423-34; Zhang et al., (2006) Mini Rev. Med. Chem. 6(4):429-48; Jefferson et al., (2006) Lancet 367(9507):303-13; Alymova et al., (2005) Curr Drug Targets Infect. Disord. 5(4):401-9; Moscona (2005) N. Engl. J. Med. 353(13):1363-73; De Clercq (2004) J. Clin. Virol. 30(2):115-33; Stiver (2003) CMAJ 168(1):49-56; Oxford et al., (2003) Expert Rev. Anti. Infect. Ther. 1(2):337-42; Cheer et al., (2002) Am. J. Respir. Med. 1(2):147-52; Sidewell et al., (2002) Expert Opin. Investig. Drugs. 11(6):859-69; Doucette et al., (2001) Expert Opin. Pharmacother. 2(10):1671-83; Young et al., (2001) Philos. Trans. R. Soc. Lond. B. Biol. Sci. 356(1416):1905-13; Lew et al., (2000) Curr. Med. Chem. 7(6):663-72); Taylor et al., (1996) Curr. Opin. Struct. Biol. 1996 6(6):830-7; and U.S. Patent Appln. Nos. 20060057658 and 20040062801.

Inhibition of RNA can effectively inhibit expression of a gene from which the RNA is transcribed. Inhibitors are selected from the group comprising: siRNA, interfering RNA or RNAi; dsRNA; RNA Polymerase III transcribed DNAs; ribozymes; and antisense nucleic acid, which can be RNA, DNA, or artificial nucleic acid. Also within the scope of the present invention are oligonucleotide sequences that include antisense oligonucleotides and ribozymes that function to bind to, degrade and/or inhibit the translation of an mRNA encoding a neuraminidase, such as a bacterial neuraminidase.

Antisense oligonucleotides, including antisense DNA, RNA, and DNA/RNA molecules, act to directly block the translation of mRNA by binding to targeted mRNA and preventing protein translation. For example, antisense oligonucleotides of at least about 15 bases and complementary to unique regions of the DNA sequence encoding a neuraminidase polypeptide can be synthesized, e.g., by conventional phosphodiester techniques (Dallas et al., (2006) Med. Sci. Monit. 12(4):RA67-74; Kalota et al., (2006) Handb. Exp. Pharmacol. 173:173-96; Lutzelburger et al., (2006) Handb. Exp. Pharmacol. 173:243-59).

siRNA comprises a double stranded structure containing 15 to 50 base pairs, and having a nucleotide sequence identical or nearly identical to an expressed target gene or RNA within the cell. In one embodiment, an siRNA comprises a double stranded structure containing 21 to 25 base pairs. Antisense polynucleotides include, but are not limited to: morpholinos, 2′-O-methyl polynucleotides, DNA, RNA and the like. RNA polymerase III transcribed DNAs contain promoters, such as the U6 promoter. These DNAs can be transcribed to produce small hairpin RNAs in the cell that can function as siRNA or linear RNAs that can function as antisense RNA. The inhibitor can be polymerized in vitro, recombinant RNA, contain chimeric sequences, or derivatives of these groups. The inhibitor can contain ribonucleotides, deoxyribonucleotides, synthetic nucleotides, or any suitable combination such that the target RNA and/or gene is inhibited. In addition, these forms of nucleic acid can be single, double, triple, or quadruple stranded. (see for example Bass (2001) Nature, 411, 428 429; Elbashir et al., (2001) Nature, 411, 494 498; and PCT Publication Nos. WO 00/44895, WO 01/36646, WO 99/32619, WO 00/01846, WO 01/29058, WO 99/07409, WO 00/44914).

Ribozymes are enzymatic RNA molecules that catalyze the specific cleavage of RNA. The mechanism of ribozyme action involves sequence specific hybridization of the ribozyme molecule to complementary target RNA encoding the neuraminidase, followed by endonucleolytic cleavage. Engineered hammerhead motif ribozyme molecules that specifically and efficiently catalyze endonucleolytic cleavage of mRNA sequences encoding a neuraminidase inhibitor, such as a bacterial neuraminidase inhibitor, are also within the scope of the present invention. Scanning the target molecule for ribozyme cleavage sites that include the following sequences, GUA, GUU, and GUC initially identifies specific ribozyme cleavage sites within any potential RNA target. Once identified, short RNA sequences of between about 15 and 20 ribonucleotides corresponding to the region of the target gene containing the cleavage site can be evaluated for predicted structural features such as secondary structure that can render the oligonucleotide sequence unsuitable. The suitability of candidate targets can also be evaluated by testing their accessibility to hybridization with complementary oligonucleotides using, e.g., ribonuclease protection assays.

Both the antisense oligonucleotides and ribozymes of the present invention can be prepared by known methods. These include techniques for chemical synthesis such as, e.g., by solid phase phosphoamite chemical synthesis. Alternatively, antisense RNA molecules can be generated by in vitro or in vivo transcription of DNA sequences encoding the RNA molecule. Such DNA sequences can be incorporated into a wide variety of vectors that incorporate suitable RNA polymerase promoters such as the T7 or SP6 polymerase promoters.

Various modifications to the oligonucleotides of the present invention can be introduced as a means of increasing intracellular stability and half-life. Possible modifications include but are not limited to the addition of flanking sequences of ribonucleotides or deoxyribonucleotides to the 5′ and/or 3′ ends of the molecule, or the use of phosphorothioate or 2′-O-methyl rather than phosphodiesterase linkages within the oligonucleotide backbone.

An aptamer can be nucleic acid ligand that, through its ability to adopt a specific three-dimensional conformation, binds to and has an antagonizing (i.e., inhibitory) effect on a target. The target of the present invention is neuraminidase, and hence the term neuraminidase aptamer or nucleic acid ligand or neuraminidase aptamer or nucleic acid ligand is used. Inhibition of the target by the aptamer can occur by binding of the target, by catalytically altering the target, by reacting with the target in a way which modifies/alters the target or the functional activity of the target, by covalently attaching to the target as in a suicide inhibitor, by facilitating the reaction between the target and another molecule. Aptamers can be comprised of multiple ribonucleotide units, deoxyribonucleotide units, or a mixture of both types of nucleotide residues. Aptamers can further comprise one or more modified bases, sugars or phosphate backbone units as described in further detail herein.

Aptamers nucleic acid sequences are readily made that bind to a wide variety of target molecules. The aptamer nucleic acid sequences of the invention can be comprised entirely of RNA or partially of RNA, or entirely or partially of DNA and/or other nucleotide analogs. Aptamers are developed to bind particular ligands by employing known in vivo or in vitro (more often, in vitro) selection techniques known as SELEX (Systematic Evolution of Ligands by Exponential Enrichment). Methods of making aptamers are described in, for example, Ellington and Szostak (1990) Nature 346:818, Tuerk and Gold (1990) Science 249:505, U.S. Pat. No. 5,582,981; PCT Publication No. WO 00/20040; U.S. Pat. No. 5,270,163; Lorsch and Szostak (1994) Biochem. 33:973; Mannironi et al., (1997) Biochem. 36:9726; Blind (1999) Proc. Nat'l. Acad. Sci. USA 96:3606-3610; Huizenga and Szostak (1995) Biochem. 34:656-665; PCT Publication Nos. WO 99/54506, WO 99/27133, and WO 97/42317; and U.S. Pat. No. 5,756,291.

Generally, in their most basic form, in vitro selection techniques for identifying RNA aptamers involve first preparing a large pool of DNA molecules of the desired length that contain at least some region that is randomized or mutagenized. For instance, a common oligonucleotide pool for aptamer selection can contain a region of 20-100 randomized nucleotides flanked on both ends by an about 15-25 nucleotide long region of defined sequence useful for the binding of PCR primers. The oligonucleotide pool is amplified using standard PCR techniques. The DNA pool is then transcribed in vitro. The RNA transcripts are then subjected to affinity chromatography. The transcripts are passed through a column or contacted with magnetic beads or the like on which the target ligand has been immobilized. RNA molecules in the pool, which bind to the ligand, are retained on the column or bead, while nonbinding sequences are washed away. The RNA molecules, which bind the ligand, are then reverse transcribed and amplified again by PCR (usually after elution). The selected pool sequences are then put through another round of the same type of selection. The pool sequences are put through a total of about three to ten iterative rounds of the selection procedure. The cDNA is then amplified, cloned, and sequenced using standard procedures to identify the sequence of the RNA molecules that act as aptamers for the target ligand.

One can generally choose a suitable ligand without reference to whether an aptamer is yet available. In most cases, an aptamer can be obtained which binds the small, organic molecule of choice by someone of ordinary skill in the art. The unique nature of the in vitro selection process allows for the isolation of a suitable aptamer that binds a desired ligand despite a complete dearth of prior knowledge as to what type of structure can bind the desired ligand.

The association constant for the aptamer and associated ligand is, for example, such that the ligand functions to bind to the aptamer and have the desired effect at the concentration of ligand obtained upon administration of the ligand. For in vivo use, for example, the association constant should be such that binding occurs below the concentration of ligand that can be achieved in the serum or other tissue (such as ocular vitreous fluid). For example, the required ligand concentration for in vivo use can have undesired effects on the organism.

The aptamer nucleic acid sequences, in addition to including RNA, DNA and mixed compositions, can be modified. For example, certain modified nucleotides can confer improved characteristic on high-affinity nucleic acid ligands containing them, such as improved in vivo stability or improved delivery characteristics. Examples of such modifications include chemical substitutions at the ribose and/or phosphate and/or base positions. SELEX-identified nucleic acid ligands containing modified nucleotides are described in U.S. Pat. No. 5,660,985, entitled “High Affinity Nucleic Acid Ligands Containing Modified Nucleotides,” that describes oligonucleotides containing nucleotide derivatives chemically modified at the 5- and 2′-positions of pyrimidines. U.S. Pat. No. 5,637,459, supra, describes highly specific nucleic acid ligands containing one or more nucleotides modified with 2′-amino (2′—NH.sub.2), 2′-fluoro (2′-F), and/or 2′-O-methyl (2′-OMe). U.S. application Ser. No. 08/264,029, filed Jun. 22, 1994, entitled “Novel Method of Preparation of Known and Novel 2′ Modified Nucleosides by Intramolecular Nucleophilic Displacement,” describes oligonucleotides containing various 2′-modified pyrimidines.

The aptamer nucleic acid sequences of the invention further can be combined with other selected oligonucleotides and/or non-oligonucleotide functional units as described in U.S. Pat. No. 5,637,459, entitled “Systematic Evolution of Ligands by Exponential Enrichment: Chimeric SELEX,” and U.S. Pat. No. 5,683,867, entitled “Systematic Evolution of Ligands by Exponential Enrichment: Blended SELEX,” respectively.

Diversity libraries, such as random or combinatorial peptide or non-peptide libraries can be screened for small molecules and compounds that specifically bind to a bacterial, viral, yeast, or protozoan neuraminidase. Many libraries are known in the art that can be used such as, e.g., chemically synthesized libraries, recombinant (e.g., phage display) libraries, and in vitro translation-based libraries.

Any screening technique known in the art can be used to screen for agonist or antagonist molecules (such as neuraminidase inhibitors) directed at a target of interest (e.g. a neuraminidase, such as a bacterial neuraminidase). The present invention encompasses screens for small molecule ligands or ligand analogs and mimics, as well as screens for natural ligands that bind to and antagonize neuraminidase inhibitors, such as via examining the degree of biofilm inhibition utilizing previously described biofilm assays. For example, natural products libraries can be screened using assays of the invention for molecules that agonize or antagonize the activity of a molecule of interest, such as a neuraminidase.

Knowledge of the primary sequence of a molecule of interest, such as a neuraminidase inhibitor, and the similarity of that sequence with proteins of known function (e.g., a viral neuraminidase inhibitor such as Tamiflu), can provide an initial clue as the inhibitors or antagonists of the protein. Identification and screening of antagonists is further facilitated by determining structural features of the protein, e.g., using X-ray crystallography, neutron diffraction, nuclear magnetic resonance spectrometry, and other techniques for structure determination. These techniques provide for the rational design or identification of agonists and antagonists.

Test compounds, such as test neuraminidase inhibitors, are screened from large libraries of synthetic or natural compounds. Numerous means are currently used for random and directed synthesis of saccharide, peptide, and nucleic acid based compounds. Synthetic compound libraries are commercially available from Maybridge Chemical Co. (Trevillet, Cornwall, UK), Comgenex (Princeton, N.J.), Brandon Associates (Merrimack, N.H.), and Microsource (New Milford, Conn.). A rare chemical library is available from Aldrich (Milwaukee, Wis.). Alternatively, libraries of natural compounds in the form of bacterial, fungal, plant and animal extracts are available from e.g. Pan Laboratories (Bothell, Wash.) or MycoSearch (N.C.), or are readily producible. Additionally, natural and synthetically produced libraries and compounds are readily modified through conventional chemical, physical, and biochemical means (Blondelle et al., (1996) Tib Tech 14:60).

Methods for preparing libraries of molecules are well known in the art and many libraries are commercially available. Libraries of interest in the invention include peptide libraries, randomized oligonucleotide libraries, synthetic organic combinatorial libraries, and the like. Degenerate peptide libraries can be readily prepared in solution, in immobilized form as bacterial flagella peptide display libraries or as phage display libraries. Peptide ligands can be selected from combinatorial libraries of peptides containing at least one amino acid. Libraries can be synthesized of peptoids and non-peptide synthetic moieties. Such libraries can further be synthesized which contain non-peptide synthetic moieties, which are less subject to enzymatic degradation compared to their naturally-occurring counterparts. Libraries are also meant to include for example but are not limited to peptide-on-plasmid libraries, polysome libraries, aptamer libraries, synthetic peptide libraries, synthetic small molecule libraries and chemical libraries. The libraries can also comprise cyclic carbon or heterocyclic structure and/or aromatic or polyaromatic structures substituted with one or more of the above-identified functional groups. Screening compound libraries listed above [also see EXAMPLES 1 and 2, and U.S. Patent Application Publication No. 2005/0009163, which is hereby incorporated by reference], in combination with biofilm assays described below (such as the one depicted in EXAMPLE 1) can be used to identify neuraminidase inhibitors that disrupt the formation of a biofilm (Lew et al., (2000) Curr. Med. Chem. 7(6):663-72; Werner et al., (2006) Brief Funct. Genomic Proteomic 5(1):32-6).

Small molecule combinatorial libraries can also be generated. A combinatorial library of small organic compounds is a collection of closely related analogs that differ from each other in one or more points of diversity and are synthesized by organic techniques using multi-step processes. Combinatorial libraries include a vast number of small organic compounds. One type of combinatorial library is prepared by means of parallel synthesis methods to produce a compound array. A compound array can be a collection of compounds identifiable by their spatial addresses in Cartesian coordinates and arranged such that each compound has a common molecular core and one or more variable structural diversity elements. The compounds in such a compound array are produced in parallel in separate reaction vessels, with each compound identified and tracked by its spatial address. Examples of parallel synthesis mixtures and parallel synthesis methods are provided in U.S. Ser. No. 08/177,497, filed Jan. 5, 1994 and its corresponding PCT published patent application WO95/18972, published Jul. 13, 1995 and U.S. Pat. No. 5,712,171 granted Jan. 27, 1998 and its corresponding PCT published patent application WO96/22529, which are hereby incorporated by reference.

Examples of chemically synthesized libraries are described in Fodor et al., (1991) Science 251:767-773; Houghten et al., (1991) Nature 354:84-86; Lam et al., (1991) Nature 354:82-84; Medynski, (1994) BioTechnology 12:709-710; Gallop et al., (1994) J. Medicinal Chemistry 37(9):1233-1251; Ohlmeyer et al., (1993) Proc. Natl. Acad. Sci. USA 90:10922-10926; Erb et al., (1994) Proc. Natl. Acad. Sci. USA 91:11422-11426; Houghten et al., (1992) Biotechniques 13:412; Jayawickreme et al., (1994) Proc. Natl. Acad. Sci. USA 91:1614-1618; Salmon et al., (1993) Proc. Natl. Acad. Sci. USA 90:11708-11712; PCT Publication No. WO 93/20242, dated Oct. 14, 1993; and Brenner et al., (1992) Proc. Natl. Acad. Sci. USA 89:5381-5383.

Examples of phage display libraries are described in Scott et al., (1990) Science 249:386-390; Devlin et al., (1990) Science, 249:404-406; Christian, et al., (1992) J. Mol. Biol. 227:711-718; Lenstra, (1992) J. Immunol. Meth. 152:149-157; Kay et al., (1993) Gene 128:59-65; and PCT Publication No. WO 94/18318.

In vitro translation-based libraries include but are not limited to those described in PCT Publication No. WO 91/05058; and Mattheakis et al., (1994) Proc. Natl. Acad. Sci. USA 91:9022-9026.

In one non-limiting example, non-peptide libraries, such as a benzodiazepine library (see e.g., Bunin et al., (1994) Proc. Natl. Acad. Sci. USA 91:4708-4712), can be screened. Peptoid libraries, such as that described by Simon et al., (1992) Proc. Natl. Acad. Sci. USA 89:9367-9371, can also be used. Another example of a library that can be used, in which the amide functionalities in peptides have been permethylated to generate a chemically transformed combinatorial library, is described by Ostresh et al. (1994), Proc. Natl. Acad. Sci. USA 91:11138-11142.

Screening the libraries can be accomplished by any variety of commonly known methods. See, for example, the following references, which disclose screening of peptide libraries: Parmley and Smith, (1989) Adv. Exp. Med. Biol. 251:215-218; Scott and Smith, (1990) Science 249:386-390; Fowlkes et al., (1992) BioTechniques 13:422-427; Oldenburg et al., (1992) Proc. Natl. Acad. Sci. USA 89:5393-5397; Yu et al., (1994) Cell 76:933-945; Staudt et al., (1988) Science 241:577-580; Bock et al., (1992) Nature 355:564-566; Tuerk et al., (1992) Proc. Natl. Acad. Sci. USA 89:6988-6992; Ellington et al., (1992) Nature 355:850-852; U.S. Pat. Nos. 5,096,815; 5,223,409; and 5,198,346, all to Ladner et al.; Rebar et al., (1994) Science 263:671-673; and PCT Pub. WO 94/18318. Screening methods of the invention utilizing, for example, the libraries described above, can allow for the identification of candidate neuraminidase inhibitors.

One of skill in the art will be familiar with methods for predicting the effect on protein conformation of a change in protein sequence, and can thus “design” a variant which functions as an antagonist according to known methods. One example of such a method is described by Dahiyat and Mayo in Science (1997) 278:82 87, which describes the design of proteins de novo. The method can be applied to a known protein to vary only a portion of the polypeptide sequence. By applying the computational methods of Dahiyat and Mayo, specific variants of neuraminidase inhibitors confined to regions which bind the active site of a neuraminidase (such as bacterial neuraminidase) can be proposed and tested to determine whether the variant retains a desired conformation. Similarly, Blake (U.S. Pat. No. 5,565,325) teaches the use of known ligand structures to predict and synthesize variants with similar or modified function.

Other methods for preparing or identifying peptides that bind to a particular target are known in the art. Molecular imprinting, for instance, can be used for the de novo construction of macromolecular structures such as peptides that bind to a particular molecule. See, for example, Kenneth J. Shea, Molecular Imprinting of Synthetic Network Polymers: The De Novo synthesis of Macromolecular Binding and Catalytic Sites, TRIP Vol. 2, No. 5, May 1994; Mosbach, (1994) Trends in Biochem. Sci., 19(9); and Wulff, G., in Polymeric Reagents and Catalysts (Ford, W. T., Ed.) ACS Symposium Series No. 308, pp 186-230, American Chemical Society (1986). One method for preparing mimics of neuraminidase inhibitors involves the steps of: (i) polymerization of functional monomers around a known substrate (the template or in this case, the neuraminidase active domain) that exhibits a desired activity; (ii) removal of the template molecule; and then (iii) polymerization of a second class of monomers in, the void left by the template, to provide a new molecule which exhibits one or more desired properties which are similar to that of the template. In addition to preparing peptides in this manner other binding molecules such as polysaccharides, nucleosides, drugs, nucleoproteins, lipoproteins, carbohydrates, glycoproteins, steroids, lipids, and other biologically active materials can also be prepared. This method is useful for designing a wide variety of biological mimics that are more stable than their natural counterparts, because they are prepared by the free radical polymerization of functional monomers, resulting in a compound with a nonbiodegradable backbone. Other methods for designing such molecules include for example drug design based on structure activity relationships, which require the synthesis and evaluation of a number of compounds and molecular modeling.

A neuraminidase inhibitor according to the method of the invention modulates the activity of a neuraminidase via either reducing the activity of the neuraminidase in the biofilm after the neuraminidase inhibitor is applied, thus inhibiting formation of the biofilm. For example, a reduction in the formation of the biofilm can be measured by looking at a decrease in the surface area covered by the biofilm, thickness, or consistency (such as the integrity of the biofilm).

An inhibition or reduction in a biofilm via treatment with a neuraminidase inhibitor composition (such as a bacterial neuraminidase inhibitor) can be measured via techniques established in the art. These techniques enable one to assess bacterial attachment via measuring the staining of the adherent biomass, to view microbes in vivo via microscopy methods; or to monitor cell death in the biomass in response to toxic agents. The biofilm can be reduced with respect to the surface area covered by the biofilm, thickness, and consistency (for example, the integrity of the biofilm). Non-limiting examples of biofilm assays include microtiter plate biofilm assays, fluorescence-based biofilm assays, static biofilm assays according to Walker et al., ((2005) Infect. Immun. 73(6): 3693-3701), Air-liquid interface assays, colony biofilm assays, and Kadouri Drip-Fed Biofilm assays (Merritt et al., (2005) Current Protocols in Microbiology 1.B.1.1-1.B.1.17). Biofilms (such as their morphology, thickness, and the like) also can be analyzed via confocal microscopy methods (Walker et al., (2005) Infect. Immun. 73(6): 3693-3701). Thus, these biofilm assays (such as the one depicted in EXAMPLE 1) in combination with screening compound libraries as described above can be used to identify neuraminidase inhibitors that disrupt the formation of a biofilm (Lew et al., (2000) Curr. Med. Chem. 7(6):663-72; Werner et al., (2006) Brief Funct. Genomic Proteomic 5(1):32-6).

A reduction in a biofilm indicates that the neuraminidase inhibitor, inhibited formation of the biofilm as determined by observing that the inhibitor modulated the activity or the expression of the neuraminidase protein, because biofilms are comprised of various microorganisms, thus a neuraminidase inhibitor according to the method of the present invention can inhibit such microorganisms from producing a biofilm. Thus, the formation of biofilm by, e.g., of Gram-negative bacteria, Gram-positive bacteria, or a combination thereof, can be inhibited.

Application of a neuraminidase inhibitor to a biofilm can be accomplished by any means such as spraying it onto the biofilm, infusing it into the biofilming, or pipetting into the depth of the biofilm, and the like (e.g., as shown in EXAMPLE 1).

If the neuraminidase inhibitor is to be administered to a subject, it will be in the form of a pharmaceutically acceptable composition or formulation as described below, wherein the composition or formulation is free of toxicity, which satisfies FDA requirements (see Remington: The Science and Practice of Pharmacy, 20^(th) ed., Lippincott Williams & Wilkins, 2000; U.S. Pat. No. 6,030,604). Such a neuraminidase inhibitor composition, comprising compounds or pharmaceutically acceptable salts, can be administered to a subject harboring a biofilm or is at risk of developing a biofilm (for example patient has undergone surgery, implantation, and the like) or is afflicted with a biofilm production-related disorder (discussed below). Administration can occur alone or with other therapeutically effective composition(s) (e.g., antibiotics) either simultaneously or at different times.

Formulations can include those suitable for oral, nasal, topical (including buccal and sublingual), rectal, vaginal and/or parenteral administration. The formulations can conveniently be presented in unit dosage form and can be prepared by any methods well known in the art of pharmacy. The amount of active ingredient which can be combined with a carrier material to produce a single dosage form will vary depending upon the host being treated, the mode of administration. The amount of active ingredient, which can be combined with a carrier material to produce a single dosage form, will generally be that amount of the compound that produces a therapeutic effect. Generally, out of one hundred percent, this amount will range from about 1 percent to about ninety-nine percent of active ingredient, for example, from about 5% to about 70%, or from about 10% to about 30%.

Methods of preparing these formulations or compositions include the step of bringing into association a compound of the present invention with the carrier and, optionally, one or more accessory ingredients. In general, the formulations are prepared by uniformly and intimately bringing into association a compound of the present invention with liquid carriers, or finely divided solid carriers, or both, and then, if necessary, shaping the product.

Formulations of the invention suitable for oral administration can be in the form of capsules, cachets, pills, tablets, lozenges (using a flavored basis, usually sucrose and acacia or tragacanth), powders, granules, or as a solution or a suspension in an aqueous or non-aqueous liquid, or as an oil-in-water or water-in-oil liquid emulsion, or as an elixir or syrup, or as pastilles (using an inert base, such as gelatin and glycerin, or sucrose and acacia) and/or as mouth washes and the like, each containing a predetermined amount of a compound of the present invention as an active ingredient. A compound of the present invention can also be administered as a bolus, electuary or paste.

In solid dosage forms of the invention for oral administration (capsules, tablets, pills, dragees, powders, granules and the like), the active ingredient is mixed with one or more pharmaceutically acceptable carriers, such as sodium citrate or dicalcium phosphate, and/or any of the following: (1) fillers or extenders, such as starches, lactose, sucrose, glucose, mannitol, and/or silicic acid; (2) binders, such as, for example, carboxymethylcellulose, alginates, gelatin, polyvinyl pyrrolidone, sucrose and/or acacia; (3) humectants, such as glycerol; (4) disintegrating agents, such as agar-agar, calcium carbonate, potato or tapioca starch, alginic acid, certain silicates, and sodium carbonate; (5) solution retarding agents, such as paraffin; (6) absorption accelerators, such as quaternary ammonium compounds; (7) wetting agents, such as, for example, cetyl alcohol and glycerol monostearate; (8) absorbents, such as kaolin and bentonite clay; (9) lubricants, such a talc, calcium stearate, magnesium stearate, solid polyethylene glycols, sodium lauryl sulfate, and mixtures thereof; and (10) coloring agents. In the case of capsules, tablets and pills, the pharmaceutical compositions can also comprise buffering agents. Solid compositions of a similar type can also be employed as fillers in soft and hard-filled gelatin capsules using such excipients as lactose or milk sugars, as well as high molecular weight polyethylene glycols and the like.

A tablet can be made by compression or molding, optionally with one or more accessory ingredients. Compressed tablets can be prepared using binder (for example, gelatin or hydroxypropylmethyl cellulose), lubricant, inert diluent, preservative, disintegrant (for example, sodium starch glycolate or cross-linked sodium carboxymethyl cellulose), surface-active or dispersing agent. Molded tablets can be made by molding in a suitable machine a mixture of the powdered compound moistened with an inert liquid diluent.

The tablets, and other solid dosage forms of the pharmaceutical compositions of the present invention, such as dragees, capsules, pills and granules, can optionally be scored or prepared with coatings and shells, such as enteric coatings and other coatings well known in the pharmaceutical-formulating art. They can also be formulated so as to provide slow or controlled release of the active ingredient therein using, for example, hydroxypropylmethyl cellulose in varying proportions to provide the desired release profile, other polymer matrices, liposomes and/or microspheres. They can be sterilized by, for example, filtration through a bacteria-retaining filter, or by incorporating sterilizing agents in the form of sterile solid compositions which can be dissolved in sterile water, or some other sterile injectable medium immediately before use. These compositions can also optionally contain opacifying agents and can be of a composition that they release the active ingredient(s) only, or, in a certain portion of the gastrointestinal tract, optionally, in a delayed manner. Examples of embedding compositions which can be used include polymeric substances and waxes. The active ingredient can also be in micro-encapsulated form, if appropriate, with one or more of the above-described excipients.

Liquid dosage forms for oral administration of the compounds of the invention include pharmaceutically acceptable emulsions, microemulsions, solutions, suspensions, syrups and elixirs. In addition to the active ingredient, the liquid dosage forms can contain inert diluents commonly used in the art, such as, for example, water or other solvents, solubilizing agents and emulsifiers, such as ethyl alcohol, isopropyl alcohol, ethyl carbonate, ethyl acetate, benzyl alcohol, benzyl benzoate, propylene glycol, 1,3-butylene glycol, oils (for example, cottonseed, groundnut, corn, germ, olive, castor and sesame oils), glycerol, tetrahydrofuryl alcohol, polyethylene glycols and fatty acid esters of sorbitan, and mixtures thereof.

Besides inert diluents, the oral compositions can also include adjuvants such as wetting agents, emulsifying and suspending agents, sweetening, flavoring, coloring, perfuming and preservative agents.

Suspensions, in addition to the active compounds, can contain suspending agents as, for example, ethoxylated isostearyl alcohols, polyoxyethylene sorbitol and sorbitan esters, microcrystalline cellulose, aluminum metahydroxide, bentonite, agar-agar and tragacanth, and mixtures thereof.

The neuraminidase inhibitor composition can optionally comprise a suitable amount of a physiologically acceptable excipient. Non-limiting examples of physiologically acceptable excipients can be liquids, such as water and oils, including those of petroleum, animal, vegetable, or synthetic origin, such as peanut oil, soybean oil, mineral oil, sesame oil and the like; saline; gum acacia; gelatin; starch paste; talc; keratin; colloidal silica; urea and the like. In addition, auxiliary, stabilizing, thickening, lubricating, and coloring agents can be used. For example, the neuraminidase inhibitor composition and physiologically acceptable excipient are sterile when administered to a subject (such as an animal; for example a human). The physiologically acceptable excipient should be stable under the conditions of manufacture and storage and should be preserved against the contaminating action of microorganisms.

Water is a useful excipient when the compound or a pharmaceutically acceptable salt of the compound is administered intravenously. Saline solutions and aqueous dextrose and glycerol solutions can also be employed as liquid excipients, e.g., for injectable solutions. Suitable physiologically acceptable excipients also include starch, glucose, lactose, sucrose, gelatin, malt, rice, flour, chalk, silica gel, sodium stearate, glycerol monostearate, talc, sodium chloride, dried skim milk, glycerol, propylene, glycol, water, ethanol and the like. The present compositions, if desired, can also contain minor amounts of wetting or emulsifying agents, or pH buffering agents.

The neuraminidase inhibitor composition can be administered to the subject by any effective route, for example, orally, by infusion or bolus injection, by absorption through epithelial or mucocutaneous linings (e.g., oral, rectal, vaginal, and intestinal mucosa, etc.), intradermal, intramuscular, intraperitoneal, intravenous, subcutaneous, infusion, intranasal, epidural, oral, sublingual, intracerebral, intravaginal, transdermal, rectal, by inhalation, or topical, e.g., to the ears, nose, eyes, or skin.

Pulmonary administration can also be employed, e.g., by use of an inhaler or nebulizer, and formulation with an aerosolizing agent, or via perfusion in a fluorocarbon or synthetic pulmonary surfactant. For example, the neuraminidase inhibitor composition can be formulated as a suppository, with traditional binders and excipients such as triglycerides. Various known delivery systems, including encapsulation in liposomes, microparticles, microcapsules, and capsules, can be used. Thus, the neuraminidase inhibitor composition can be delivered in a vesicle, such as a liposome (see, e.g., Langer (1990) Science 249:1527-1533; Treat et al., Liposomes in the Therapy of Infectious Disease and Cancer 317-327 and 353-365 (1989)).

The neuraminidase inhibitor composition also can be delivered in a controlled-release system or sustained-release system (see, e.g., Goodson, in Medical Applications of Controlled Release, vol. 2, pp. 115-138 (1984)). Other controlled or sustained-release systems previously discussed can be used as well (Langer (1990) Science 249:1527-1533). For example, a pump can be used (Langer (1990) Science 249:1527-1533; Sefton (1987) CRC Crit. Ref Biomed. Eng. 14:201; Buchwald et al., (1980) Surgery 88:507; and Saudek et al., (1989) N. Engl. J Med. 321:574); or polymeric materials can be used (see Langer and Wise (1985) Medical Applications of Controlled Release; CRC Press Inc.,U.S.; Smolen and Ball (1984) Controlled Drug Bioavailability, Drug Product Design and Performance; Ranger and Peppas, (1983) J. Macromol. Sci. Rev. Macromol. Chem. 2:61; Levy et al., (1985) Science 228:190; During et al., (1989) Ann. Neural. 25:351; and Howard et al., (1989) J. Neurosurg. 71:105). The controlled- or sustained-release systems can be placed in proximity of a target of the compound or a pharmaceutically acceptable salt of the compound, e.g., the respiratory tract, thus requiring only a fraction of the systemic dose.

Modulation of neuraminidase activity can also result in the reduction or prevention of the formation of a biofilm on semi-solid and solid surfaces. For example, these surfaces can be the surface of implanted and/or inserted devices (a medical device, a catheter, an infusion set of an insulin pump, a stent, a prosthetic graft); a wound dressing; the oral cavity; the alimentary or vaginal tracts; the ears or eyes; a contact lens, in addition to the cases or containers that hold the lenses when not in use; industrial equipment, or plumbing systems.

Additionally, a neuraminidase inhibitor according to the method of the invention can be applied to a surface of a contact lens or an implantable/insertable device and other surgical or medical devices (such as a medical device, a catheter, the infusion set of an insulin pump, a stent, a prosthetic graft, a wound dressing) or a wound site via covering, coating, contacting, associating with, filling, or loading the device with a therapeutic amount of a neuraminidase inhibitor in any known manner including, but not limited to the following: (1) directly affixing to the implant, device, or wound site a therapeutic agent or composition of the neuraminidase inhibitor (for example, by either spraying the implant or device with a polymer/neuraminidase inhibitor film, or by dipping the implant or device into a polymer/neuraminidase inhibitor solution, or by other covalent or noncovalent means); (2) coating the implant, wound site, or device with a substance, (such as a hydrogel) that will in turn absorb the therapeutic neuraminidase inhibitor composition; (3) interweaving a therapeutic neuraminidase inhibitor composition coated thread (or the polymer itself formed into a thread) into the implant or device or wound site; (4) inserting the implant or device into a sleeve or mesh which is comprised of or coated with a therapeutic neuraminidase inhibitor composition; (5) constructing the implant or device itself with a therapeutic neuraminidase inhibitor composition (or with respect to a wound site, constructing the wound dressing with a therapeutic neuraminidase inhibitor composition; or (6) adapting the implant or device or wound dressing to release the therapeutic neuraminidase inhibitor composition. Specific disease conditions (for example, cystic fibrosis, pneumonia, and the like as described below) that are bacteria-based can also benefit from a treatment that modulates the activity of an enzyme involved in biofilm formation (for example, treatment with a neuraminidase inhibitor).

For example, application of a neuraminidase inhibitor onto the surface of implanted and/or inserted devices (as described above) in order to reduce or prevent bacterial biofilm formation thus allows for long-term implantation and can diminish the resultant likelihood of premature failure of the device due to encrustation and occlusion by such biofilm. The amount of the neuraminidase inhibitor present in a coating, spray, film, and the like (as described above) applied to the surfaces in order to prevent the formation of a bacterial biofilm is an amount effective to inhibit the attachment of microbes onto the surface and/or the synthesis and/or accumulation of biofilm by attached microbes on such a surface.

Methods of the invention can further protect a subject from premature failure of an insertable or implantable device due to encrustation and occlusion by a bacterial biofilm. According to this method, the subject is administered a therapeutically effective amount of the neuraminidase inhibitor of the invention prior to, at the same time, or after an insertable or implantable device is introduced. An effective amount of a neuraminidase inhibitor can refer to the amount of a therapy which is sufficient to reduce or ameliorate the severity and/or duration of a disorder or one or more symptoms thereof, prevent the advancement of a disorder, cause regression of a disorder, prevent the recurrence, development, onset or progression of one or more symptoms associated with a disorder, detect a disorder, or enhance or improve the prophylactic or therapeutic effect(s) of another therapy (e.g., prophylactic or therapeutic agent).

The subject is administered the neuraminidase inhibitor that prevents formation of a bacterial biofilm prior to, at the same time, or after the introduction of the implantable/insertable device. Treatment before or after implantation can take place immediately before or after the implantation or several hours before or after implantation, or at a time or times that the skilled physician deems appropriate. According to the present invention, a subject containing a wound site in addition to those subjects receiving implants can harbor a biofilm. For example, a neuraminidase inhibitor can be administered to the subject prior to, during, or after implantation/insertion of a medical device, catheter, stent, prosthesis, and the like or application of a wound dressing. The neuraminidase inhibitor can be administered to the subject according to routes previously described and can further aid in inhibiting biofilm formation on a surface an/or within a subject.

In the case of the oral cavity, the alimentary or vaginal tracts, the ears or eyes, or a contact lens, a therapeutic amount of a neuraminidase inhibitor can be applied via coating, contacting, associating with, filling, or loading the region with a formulation comprising a paste, gel, liquid, powder, tablet, and the like. With respect to the cases or containers that hold the lenses when not in use, industrial equipment, or plumbing systems, an effective amount of a neuraminidase inhibitor can be applied in the same manners as described above. These applications would thus aid in the inhibition of biofilm formation on such surfaces.

In a subject, a biofilm can form on an oral surface (such as teeth, tongue, back of throat, and the like). These biofilms can be associated with day-to-day bacterial activity of natural flora located in such environments, but can also be associated with oral-related disease(s), such as periodontal disease (for example, gingivitis or periodontitis) or dental carries. Application of the neuraminidase inhibitor (according to methods previously described) onto such oral surfaces can inhibit or prevent bacterial biofilm formation. The amount of the neuraminidase inhibitor that can be applied to the surfaces in order to prevent the formation of a bacterial biofilm is an amount effective to inhibit the attachment of microbes onto the surface and/or the synthesis and/or accumulation of biofilm by attached microbes on such a surface.

The neuraminidase inhibitor for use on oral surfaces can comprise a paste formulation (such as toothpaste), which can then be directly applied to the biofilm of such a surface in a subject. The paste formulation can further comprise an abrasive. The neuraminidase inhibitor can also exist as a gel formulation or in liquid formulation. For example, the neuraminidase inhibitor in a liquid formulation (such as a mouthwash) can directly come in contact with the biofilm on the oral surface of a subject.

Other aspects of the invention are directed at methods of treating biofilm production-related disorders in subjects in need thereof. The method entails administering to the subject an effective amount of a neuraminidase inhibitor that reduces biofilm formation in the subject, and then measuring a reduction or inhibition in the growth of biofilm production-related bacteria in the subject. The reduction in bacterial growth is indicative of the reduction in, or inhibition of, biofilm production in the subject, thereby treating the biofilm production-related disorder. For example, the administered neuraminidase inhibitor can reduce the activity of the neuraminidase or alter the expression of the neuraminidase, thereby inhibiting or preventing the formation of a bacterial biofilm.

According to the present invention, modulation of the neuraminidase enzyme (for example, via reducing enzymatic activity or protein expression as described above) can inhibit or reduce biofilm formation due to diminished adherence of microorganisms to a surface or to increased microorganism death. This therapeutic approach thus can be useful for the treatment of biofilm-production-related disorders/conditions and medical-device related infections associated with the formation of microbial biofilms.

Non-limiting examples of biofilm production-related disorders include chronic otitis media, prostatitis, cystitis, bronchiectasis, bacterial endocarditis, osteomyelitis, dental caries, periodontal disease, infectious kidney stones, acne, Legionnaire's disease, chronic obstructive pulmonary disease (COPD), and infections from implanted/inserted devices. In one specific example, subjects with CF display an accumulation of biofilm in the lungs and digestive tract. In subjects afflicted with COPD, such as emphysema and chronic bronchitis, patients display a characteristic inflammation of the airways wherein airflow through such airways, and subsequently out of the lungs, is chronically obstructed. The methods of treatment according to the invention can also benefit a subject having chronic otitis media. Otitis media refers to an infection or inflammation in the middle ear area. The inflammation begins when infections (for example, those caused by bacterial or viral infections) that cause sore throats, colds, or other respiratory/breathing problems spread to the middle ear. Acute otitis media is the presence of fluid, typically pus, in the middle ear with symptoms of pain, redness of the eardrum, and possible fever. However the biofilm production-related disorder can be further classified as chronic if fluid is present in the middle ear for six or more weeks.

Biofilm production-related disorders can also encompass infections derived from implanted/inserted devices (such as those described previously), medical device-related infections, such as infections from biliary stents, orthopedic implant infections, and catheter-related infections (kidney, vascular, peritoneal). An infection can also originate from sites where the integrity of the skin and/or soft tissue has been compromised. Non-limiting examples include dermatitis, ulcers from peripheral vascular disease, a burn injury, and trauma. For example, a Gram-positive bacterium, such as S. pneumoniae, can cause opportunistic infections in such tissues. The ability of S. pneumoniae to infect burn wound sites, e.g., is enhanced due to the breakdown of the skin, burn-related immune defects, and antibiotic selection.

A subject in need of treatment (for example those previously described, such as an animal or human) can be one afflicted with the infections or disorders described above. As such, the subject is at risk of developing a biofilm on or in a biologically relevant surface, or already has developed such a biofilm. Such a subject at risk can be a candidate for treatment with a neuraminidase inhibitor in order to inhibit the development or onset of a biofilm-production-related disorder/condition or prevent the recurrence, onset, or development of one or more symptoms of a biofilm-production-related disorder/condition.

The subject in need can be administered a neuraminidase inhibitor as described above. It can be administered alone or in combination with a second therapeutic, e.g., such as an antibiotic, in order to prevent or inhibit the formation of bacterial biofilms. An antibiotic can be co-administered with the bacterial neuraminidase inhibitor, either sequentially or simultaneously. Upon contacting the cell, the bacterial neuraminidase inhibitor modulates the activity or the expression of the bacterial neuraminidase wherein the inhibitor reduces the activity or the expression of the bacterial neuraminidase, as described above.

An antibiotic refers to any compound known to one of ordinary skill in the art that will inhibit the growth of, or kill, bacteria. Useful, non-limiting examples of an antibiotic include lincosamides (clindomycin); chloramphenicols; tetracyclines (such as Tetracycline, Chlortetracycline, Demeclocycline, Methacycline, Doxycycline, Minocycline); aminoglycosides (such as Gentamicin, Tobramycin, Netilmicin, Amikacin, Kanamycin, Streptomycin, Neomycin); beta-lactams (such as penicillins, cephalosporins, Imipenem, Aztreonam); vancomycins; bacitracins; macrolides (erythromycins), amphotericins; sulfonamides (such as Sulfanilamide, Sulfamethoxazole, Sulfacetamide, Sulfadiazine, Sulfisoxazole, Sulfacytine, Sulfadoxine, Mafenide, p-Aminobenzoic Acid, Trimethoprim-Sulfamethoxazole); Methenamin; Nitrofurantoin; Phenazopyridine; trimethoprim; rifampicins; metronidazoles; cefazolins; Lincomycin; Spectinomycin; mupirocins; quinolones (such as Nalidixic Acid, Cinoxacin, Norfloxacin, Ciprofloxacin, Perfloxacin, Ofloxacin, Enoxacin, Fleroxacin, Levofloxacin); novobiocins; polymixins; gramicidins; and antipseudomonals (such as Carbenicillin, Carbenicillin Indanyl, Ticarcillin, Azlocillin, Mezlocillin, Piperacillin) or any salts or variants thereof. Such antibiotics can be obtained commercially, e.g., from Daiichi Sankyo, Inc. (Parsipanny, N.J.), Merck (Whitehouse Station, N.J.), Pfizer (New York, N.Y.), Glaxo Smith Kline (Research Triangle Park, NC), Johnson & Johnson (New Brunswick, N.J.), AstraZeneca (Wilmington, Del.), Novartis (East Hanover, N.J.), and Sanofi-Aventis (Bridgewater, N.J.). The antibiotic used will depend on the type of bacterial infection.

Administration of neuraminidase inhibitors to a subject can serve as a treatment that limits the severity and spread of pathogenic infections, such as bacterial infections. Neuraminidase inhibitors intended for human use must be efficacious and function in inhibiting the formation of biofilms, but must also not be toxic. The skilled physician via clinical trials can determine efficacy and toxicity.

An effective amount of a neuraminidase inhibitor refers to the amount of a therapy sufficient to reduce or ameliorate the severity and/or duration of a disorder, such as a biofilm production-related disorder (for example, pneumonia, meningitis, CF, COPD, otitis media, and others described above). An effective amount of a neuraminidase inhibitor can also be sufficient to reduce the degree and time-span of one or more symptoms associated with a biofilm production-related disorder. Additionally, this amount can prevent the advancement of a biofilm production-related disorder, cause regression of such a disorder, prevent the recurrence, development, onset or progression of one or more symptoms associated with a biofilm production-related disorder. The skilled physician can determine a therapeutic dose of a neuraminidase inhibitor that inhibits biofilm formation and/or reduces the duration of a disorder or symptoms thereof. Methods of administration of a neuraminidase inhibitor composition have been described above.

A neuraminidase inhibitor according to the methods of the invention can reduce biofilms associated with a biofilm production-related disorder with respect to the surface area the biofilm covers, thickness, and/or consistency (for example, the integrity of the biofilm). This reduction can be assessed via measuring the growth of bacteria associated with biofilm-production-related disorders, conditions, or diseases. For example, the growth of bacteria of a biofilm-production-related disease can be quantified via measuring the density of bacteria of a biofilm-production-related-disease in a biological sample. Non-limiting examples of biological samples include blood, serum, sputum, lacrimal secretions, semen, urine, vaginal secretions, and tissue samples. The reduction in the growth of bacteria of a biofilm-production-related disease can also be measured by chest x-rays or by a pulmonary function test (PFT) (for example, spirometry or forced expiratory volume (FEV₁)).

In another non-limiting example, the presence or growth of biofilm production-related bacteria can be measured by detecting the presence of antigens of biofilm production-related bacteria in a biological sample, such as those described above. For example, an antibody to S. pneumoniae components can be used as a test for colonization/infection in a subject afflicted with a biofilm production-related condition or disorder, wherein the presence of Streptococcus antigens is detected in a biological sample, such as blood. These antibodies can be generated according to methods well established in the art or can be obtained commercially (for example, from Abcam, Cambridge, Mass.; Cell Sciences Canton, M A; Novus Biologicals, Littleton, Colo.; or GeneTex, San Antonio, Tex.).

Spirometry measures lung function, for example, the volume and/or flow of air that can be inhaled and exhaled. The FEV₁ is a measurement of the volume exhaled during the first second of a forced expiratory maneuver started from the level of total lung capacity. FEV₁ is the most frequently used index for evaluating bronchoconstriction, airway obstruction, or bronchodilatation. These methods are important for assessing biofilm production-related conditions, such as pneumonia, cystic fibrosis, and COPD. A reduction in the growth of bacteria associated with biofilm production-related disorders and/or conditions is indicative of a reduction in or inhibiton of biofilm production.

Methods of the invention are provided that can prevent or reduce biofilm formation (such as a bacterial biofilm) on a biologically relevant surface, wherein a neuraminidase inhibitor is administered to a subject (such as a mammal, for example a human) in order to prevent or reduce the formation of bacterial biofilms. These surfaces include, but are not limited to, an epithelial or mucosal surface of the respiratory tract, lungs, the oral cavity, the alimentary and vaginal tracts, in the ear or the surface of the eye, and the urinary tract. For example, a biofilm can affect the surface of a lung (such as the lung of a subject with pneumonia, CF, or COPD), which is comprised of epithelial cells.

Epithelial cells are named on the basis of their cell type: simple squamous, simple cuboidal, simple columnar, stratified squamous, stratified cuboidal, or stratified columnar epithelia. Such epithelial cells can be obtained from any tissue organ having such cells, for example from the lining of cavities such as the mouth, blood vessels, heart and lungs; from the outer layers of the skin; from the lining of the air passages, stomach, and intestines; in the nose, ears and the taste buds of the tongue; from the lining of the vaginal and urinary tracts, rectum, uterus, and oviducts, and from the larger ducts of certain glands and the papillary ducts of the kidneys. Epithelial cells can also be obtained from in vitro epithelial cell culture systems well known in the art (see, e.g., Harris, A. (ed.), (1996) Epithelial Cell Culture, Cambridge University Press). Such cell lines can be available commercially or can be generated via standard cell culturing techniques (see e.g. Harris, supra).

Other aspects of the current invention are directed to methods that are useful for treating a subject (such as an animal or human) that has, is developing, or is at risk of developing a biofilm-production-related disorder/condition. A subject who is developing a biofilm-production-related disorder/condition is an individual harboring an immature biofilm clinically evident or detectable to the skilled artisan, but that has not yet fully formed. A subject at risk of developing a biofilm can be one in which the introduction of a medical device, a graft implantation, and the like is scheduled. The risk of developing a biofilm can also be due to a biofilm production-related disease (such as the channel transporter mutation associated with CF) that is in its earlier stages, e.g., no bacterial infection and/or biofilm formation is yet detected.

In a specific example, methods are provided for preventing biofilm formation in the airways of cystic fibrosis patients who are free of bacterial infection of the airways. Such patients are at risk of developing a biofilm, and as such, are “in need thereof” The method entails administering to the subject an effective amount of a neuraminidase inhibitor, which prevents growth of bacteria associated with a biofilm production-related disorder in the airways of a subject, and detecting the absence of such bacterial growth in the airways of the subject. The absence of bacterial growth is indicative of the lack of biofilm formation in the airways of the subject. For example, the subject can be one afflicted with CF and is a human (such as an individual of 5 years of age or less) that has not yet developed a bacterial infection of the airways indicating that P. aeruginosa and/or S. pneumoniae has not yet colonized the epithelial cells of the lung airways. Airways of the lung include bronchii, bronchioles, aleveolar ducts, alveolar sacs, and alveoili.

The growth of bacteria associated with a biofilm-production-related disorder can be quantified by detecting the presence of S. pneumoniae (e.g. by measuring the density of the bacteria) in a biological sample according to methods practiced in the art. Non-limiting examples of biological samples include blood, serum, sputum, lacrimal secretions, sweat, semen, urine, vaginal secretions, and tissue samples. For example, the presence or absence of bacteria can be measured via detecting the presence of bacterial in a biological sample, such as those described above. An antibody to S. pneumoniae components can be used as a test for colonization/infection in a subject afflicted with a biofilm production-related condition or disorder (such as pneumonia or CF), wherein the presence of Streptococcus antigens is detected in a biological sample, such as blood. These antibodies can be generated according to methods well established in the art or can be obtained commercially (for example, from Abcam, Cambridge, Mass.; Cell Sciences Canton, M A; Novus Biologicals, Littleton, Colo.; or GeneTex, San Antonio, Tex.). The absence of bacterial growth and its associated biofilm can also be measured, e.g., by chest x-rays or by a pulmonary function test (PFT) (for example, spirometry or FEV₁, methods described above).

According to the invention, administration of neuraminidase inhibitors to a subject (for example, one afflicted with CF who is free of bacterial infection in the airways) can serve as a preventive means by which to deter the development of pathogenic infections, such as bacterial infections (eg. P. aeruginosa and/or S. pneumoniae).

An effective amount of a neuraminidase inhibitor to be administered can be the amount sufficient to prevent the onset or development of a pathogenic infection associated with a biofilm production-related disease or disorder (for example, pneumonia, COPD, or CF). The skilled physician can determine a therapeutic dose of a neuraminidase inhibitor that prevents pathogenic infection in addition to biofilm formation. An effective amount of a neuraminidase inhibitor, for example, one directed at the Streptococcus enzyme, can be administered according to methods of this invention. Methods of administration of a neuraminidase inhibitor composition have been described above.

Aspects of the present invention also provide methods of preventing or reducing biofilm formation associated with a wide variety of commercial, industrial, and processing operations, such as those found in water handling/processing industries. The method for inhibiting biofilm formation on an industrial/commercial surface entails applying a neuraminidase inhibitor to the biofilm found on such surfaces. The neuraminidase inhibitor modulated activity or expression of the neuraminidase protein can then be measured. A reduction in the neuraminidase inhibitor modulated activity or expression of the neuraminidase protein is indicative of the inhibition of biofilm formation. The neuraminidase inhibitor can be directed at any neuraminidase produced by organisms in the biofilm. These have been described above.

The neuraminidase inhibitors useful in the invention that prevent or reduce the formation of bacterial biofilms can be utilized in order to prevent microorganisms from adhering to surfaces. These surfaces can be hard, semi-hard, porous, soft, semi-soft, regenerating, or non-regenerating; and can include, but are not limited to, metal, alloy, polyurethane, water, polymeric surfaces of implantable/insertable devices (such as medical devices or catheters), the enamel of teeth, and surfaces of mammalian cellular membranes.

For example, some surfaces can be the surfaces of industrial equipment (such as, equipment located in Good Manufacturing Practice (GMP) facilities, food processing plants, photo processing venues, and the like), the surfaces of plumbing systems, or the surfaces bodies of water (such as lakes, swimming pools, oceans, and the like). Embodiments of the invention further provide methods for inhibiting and/or reducing biofilm formation within a plumbing system.

The surfaces can be coated, sprayed, or impregnated with a neuraminidase inhibitor prior to use to prevent the formation of bacterial biofilms. Surfaces also can be treated with a neuraminidase inhibitor to reduce, control, or eradicate microorganisms (such as those described above) adhering to such surfaces. In a specific example, the method can be used in an open re-circulating water system used for cooling to control the temperature of fermentation tanks. In such a system, the water circulates through coils and jackets in the tank, over an induced draft-cooling tower, and then is pumped back from the sump. Biofilm-producing microorganisms can flourish in the cooling water system due to contamination and highly nutritive substances from the surrounding environment (Coetser et al., (2005) Crit. Rev. Micro. 31: 212-32). This biofilm can form on the cooling tower water distribution elements, its support components, and on the heat transfer surfaces of the system resulting in poor cooling efficiency. Thus, to prevent formation of the biofilm, a neuraminidase inhibitor is applied to treat the water-cooling system. Not only is the treatment suitable for the water-cooling system of a fermentation tank, but can also be applicable to air conditioning condensers, (such as those found in hospitals or industrial plants), that are served by a rooftop open-deck cooling tower (described in U.S. Pat. No. 6,395,189 and U.S. Appln. Pub. No. 2005/0158253).

The neuraminidase inhibitor can be added directly to a water handling or collection system (such as the systems described above). Alternatively, the bacterial neuraminidase inhibitor can be applied to the biofilm, itself, or to the bacteria within, or the producers of the biofilm or which can produce the biofilm. It can be applied as a formulation comprising a paste, liquid, powder, gel, or tablet. The neuraminidase inhibitor functions via modulating the activity or the expression of a bacterial neuraminidase protein. Upon the neuraminidase inhibitor contacting the bacterial cell, the activity or expression of the bacterial neuraminidase is reduced, thereby preventing or reducing the formation of a bacterial biofilm. For example, the biofilm formed on the surfaces of systems (which include but are not limited to plumbing, tubing, and support components) involved with water condensate collections, sewerage discharges, paper pulping operations, re-circulating water systems (such as air conditioning systems, a cooling tower, and the like), and, in water bearing, handling, processing, collection systems of an industrial setting can be formed by a Gram-negative or Gram-positive bacterium (as described above), or a combination thereof.

Adding the neuraminidase inhibitor prevents or reduces formation of biofilms on the surface of the water or on the surfaces of the pipes or plumbing of water-handling systems, or other surfaces of the collection and/or operation systems that the water contacts.

Also provided are methods for identifying or screening for inhibitors of a neuraminidase protein useful in preventing or inhibiting the formation of biofilms. The method entails contacting a cell infected with a biofilm-producing microbe, such as a protozoa, yeast, virus, or bacterium, (e.g., Sreptococcus) with a test (or candidate) neuraminidase inhibitor, and then determining whether the test neuraminidase inhibitor inhibits biofilm formation Inhibition of biofilm formation thus is indicative of the ability of the test neuraminidase inhibitor to prevent or inhibit microbial infection.

Inhibition of biofilm formation can be determined by any known method, such as a visual method performed with the aid of a microscope, colorimterically via densitometry, and the like. Neuraminidase inhibitors that reduce or prevent the formation of a biofilm on surfaces are described or can be identified via biofilm assays as described above (see, e.g., EXAMPLE 1). Thus, one skilled in the art can carry out any known biofilm assay, such as those previously described.

Neuraminidase gene products, including polynucleotides, oligonucleotides and polypeptides, can be used in screening assays to identify compounds that specifically bind to bacterial, viral, yeast, or protozoan neuraminidase gene products and thus have potential use as agonists, or antagonists of such neuraminidases. In one embodiment, the bacterial, viral, yeast, or protozoan neuraminidase polynucleotides and polypeptides of the invention are useful to screen for compounds that affect the sialidase or biofilm formation activities of bacterial, viral, yeast, or protozoan neuraminidase gene products.

The invention thus provides assays to detect molecules that specifically bind to bacterial, viral, yeast, or protozoan neuraminidases. For example, recombinant cells expressing a gene encoding bacterial, viral, yeast, or protozoan neuraminidase can be used to recombinantly produce a bacterial, viral, yeast, or protozoan neuraminidases polypeptide, respectively, and to screen for molecules that bind to a bacterial, viral, yeast, or protozoan neuraminidases polypeptide, respectively. Methods that can be used to carry out the foregoing are commonly known in the art.

A neuraminidase inhibitor that can be used according to the invention has been described above.

Non-limiting examples of cells to be contacted with the neuraminidase inhibitor include bacterial cells, yeast cells, protozoan cells, and cells infected with a viral or other pathogen. Representative bacteria include but are not limited to Legionella sp., P. aeruginosa, H. influenzae, V. cholerae, Yersinia pestis, Escherichia coli, and Streptococcus pneumoniae. Alternatively, the cell to be contacted is an animal cell, such as a mammalian cell, or more specifically, a human cell. The cell can be from a particular tissue or cell line, such as an epithelial cell.

Another aspect of the invention is directed to a mutant S. pneumoniae strain having a deletion in the gene encoding a neuraminidase protein. Deleting a portion of the gene so that the gene cannot function can be accomplished by mutation or insertion of another DNA in the base sequence of the gene (also referred to as a gene disruption). As a result, the gene cannot be transcribed into mRNA, the structural gene is not translated, and the transcription product mRNA becomes incomplete. A mutation or deletion occurs in the amino acid sequence of the translation product or structural protein, rendering the protein unable to perform its original function.

Any method known in the art can be used for constructing a gene-disrupted strain, such as a strain wherein the gene encodes a neuraminidase protein. For example, the gene disruption can occur via homologous recombination or other methods described in Nickoloff (ed.), (1995) Methods in Molecular Biology 47: 291-302, Humana Press Inc., Totowa, N.J.; or in Sambrook et al. (eds.), Molecular Cloning: A Laboratory Manual, Second Edition (1989) Cold Spring Harbor Laboratory Press.

EXAMPLES

Examples are provided below to facilitate a more complete understanding of the present invention. The following examples illustrate the exemplary modes of making and practicing the present invention. However, the scope of the invention is not limited to specific embodiments disclosed in these Examples, which are for purposes of illustration only, since alternative methods can be utilized to obtain similar results.

Example 1 Structural Analysis and Inhibitor Identification of Respiratory Pathogen Neuraminidases

There is a need to develop therapeutic agents for the treatment of infections by the human respiratory pathogens Pseudomonas aeruginosa and Streptococcus pneumoniae. P. aeruginosa causes significant morbidity and mortality for cystic fibrosis patients and is a leading nosocomial pathogen. S. pneumoniae is the most common cause of bacterial pneumonia and otitis media leading to substantial economic burden. The neuraminidases of P. aeruginosa and S. pneumoniae, which catalyze the release of terminal sialic acid residues from glycoconjugates, are involved in host colonization in animal models of infection. We demonstrate that the S. pneumoniae neuraminidase (NanA), like that of P. aeruginosa (NanPs), contributes to biofilm formation. To help identify compounds that inhibit these neuraminidases, the crystal structures of the P. aeruginosa and S. pneumoniae enzymes were soved at 1.6 and 1.7 Å resolution, respectively. The active site regions of the two enzymes are strikingly different: NanA contains a deep pocket that is similar to that in canonical neuraminidases, while the NanPs active site is much more open. The structural information was used to undertake a ligand-receptor docking screen and a lead compound that shows inhibition against both enzymes was identified. This work can be the basis for developing drugs to prevent colonization of the respiratory tract by these two important pathogens.

P. aeruginosa and S. pneumoniae are important human respiratory pathogens. The neuraminidase enzyme, which cleaves sialic acid residues, plays an important role in the pathogenesis of respiratory infection. We demonstrate that the NanA neuraminidase of S. pneumoniae like the NanPs enzyme of P. aeruginosa is involved in biofilm formation, which enhances airway colonization. We determined the three-dimensional structures of the neuraminidase from these two organisms and show that although they possess similar overall structure, their active sites are vastly different. Using this structural information we identified candidate inhibitory compounds. The information derived from the structures of the two enzymes and the subsequent identification of inhibitory compounds represents a first step in the development of therapeutics against these two significant human pathogens.

The production of neuraminidase/sialidase by mucosal pathogens has long been associated with the pathogens of respiratory tract infection [A1]. Neuraminidases are widespread among animals and microorganisms, catalyzing the release of terminal sialic acid residues from glycoconjugates [A2]. The influenza neuraminidase is required to facilitate spread of the virus, cleaving it from its sialic acid receptor. The influenza neuraminidase is not only a key antigen for the highly successful influenza vaccine, it is also the target for the drugs zanamivir and oseltamivir that are widely used to prevent and ameliorate influenza infection [A3]. The analysis of the structure/function relationships of the influenza neuraminidase and its substrate provides a paradigm for the development of antimicrobial therapy directed at critical virulence factors. These neuraminidases are recognized in most sequence analysis programs by their common elements, often conserved “ASP” boxes, sites in the predicted amino acid sequence that are predicted to interact with sialic acid residues [A2,A4]. Neuraminidases are produced by respiratory pathogens with very different metabolic requirements and highly variable potential for virulence. As neuraminidases are highly conserved virulence factors that appear to be critical for colonization and infection of the respiratory tract by such diverse pathogens, the development of anti-bacterial neuraminidase inhibitors would appear to be a realistic therapeutic target.

S. pneumoniae is the most common cause of bacterial pneumonia and a significant cause of otitis media, a major clinical problem in pediatrics [A5,A6]. There are at least 90 serotypes of S. pneumoniae, with the current pediatric vaccine covering seven common and the adult vaccine covering 23 serotypes [A5,A7]. There is a need for therapeutic strategies active against all serotypes as those serotypes not covered by the vaccines are rising in prevalence by genetic recombination and are increasingly associated with invasive disease [A8, A9]. In addition, antibiotic resistance amongst S. pneumoniae is a growing problem. S. pneumoniae produces at least three distinct neuraminidases [A10]; NanA being the most expressed and active [A11, A12] that is conserved in all strains [A10, A13, A14]. Production of NanA can be detected in vivo, and its expression is upregulated upon interaction with host cells [A15-A18]. The pneumococcal neuraminidase modifies host glycoconjugates [A19, A20] and exposes potential binding receptors [A21-A25]. Without being bound by theory, a role in survival has also been indicated as desialylation of other organisms has been demonstrated [A26]. Pneumococcal neuraminidase activity also provides a source of carbohydrates for bacterial metabolism, cleaving sugars from the mucosal surface [A20, A27, A28], but whether this significantly contributes to bacterial growth in vivo is not clearly established. Several studies have stated that nanA mutants colonize the rodent respiratory tract less efficiently than wild type strains [A11, A29, A30] and vaccination with purified NanA affords some protection against nasopharyngeal colonization and otitis media [A31-A33]. However, these differences can be mouse strain and animal model dependent [A19, A20, A34, A35].

P. aeruginosa, also a neuraminidase producer, is an opportunistic pathogen which is the most common cause of respiratory tract infection in patients with cystic fibrosis and rarely a cause of infection in otherwise healthy subjects [A36]. The neuraminidase of P. aeruginosa (NanPs) has been characterized and found to be important in the pathogenesis of pneumonia in a mouse model of infection [A37]. Its expression is correlative with initial airway colonization, particularly in isolates from young patients recently infected with the organism [A38]. In contrast to the pneumococcal enzyme, the P. aeruginosa neuraminidase does not appear to target host glycoconjugates but instead is involved in the biosynthesis of the extracellular polysaccharides on the bacterial surface that are involved in cell-cell interaction, agglutination and biofilm formation [A37]. P. aeruginosa does not ferment the sugars that are released through neuraminidase activity and expression of the enzyme does not enhance bacterial growth rates [A37]. Nonetheless, the P. aeruginosa neuraminidase mutant is significantly less proficient in colonizing and infecting the lungs of mice and can provide a target for prevention of P. aeruginosa infection in susceptible patients.

Neuraminidase expression by both S. pneumoniae and P. aeruginosa facilitates their respective abilities to colonize and infect respiratory tract in animal models. We show that S. pneumoniae, like P. aeruginosa, uses the neuraminidase in biofilm formation. Without being bound by theory, differences in structures of these enzymes can explain their functional differences and their distinctive roles in pathogenesis. We report here the crystal structures of P. aeruginosa and S. pneumoniae neuraminidases at the 1.6 and 1.7 Å level and using this information have identified a number of compounds that were shown to inhibit the enzymes.

Results

Structure of the NanA neuraminidase from S. pneumoniae. The crystal structure of the free enzyme of S. pneumoniae NanA has been determined at 1.7 Å resolution (Table 1). The bacterial expression construct contained residues 116-1035 and in situ proteolysis with trypsin was essential for the crystallization. The current atomic model contains residues 320-793 and 317-793 for the two NanA molecules in the crystallographic asymmetric unit, respectively. Roughly 200 residues from both the N and C termini of the recombinant protein were removed by trypsin during crystallization. The two NanA molecules have essentially the same conformation, with an rms distance of 0.25 Å for their equivalent Cα atoms. Purified NanA is monomeric in solution, based on gel-filtration chromatography.

The NanA structure contains a six-bladed β-propeller domain, with an insertion (residues 437-535) between the second and the third β-strands of the second blade (FIG. 1A). This insertion forms a distinct domain located next to the catalytic β-propeller domain. The overall structure of NanA shares high structural similarity with other bacterial neur-aminidases, including the Salmonella typhimurium LT2 neuraminidase [A39], Vibrio cholerae neuraminidase [A40], Clostridium perfringens sialidase NanI [A41], and Micro-monospora viridifaciens sialidase [A42]. The structures of S. pneumoniae NanA in complex with the transition state analog 2,3-dehydro-2-deoxy-N-acetylneuraminic acid (DANA) at 2.5 Å resolution [A43] and NanB [A44] were recently reported. The published NanA structure [A43] is based on an expression construct that contains residues 319-822, although only residues 322-791 are observed in the structure and the crystals are in a different space group. Nonetheless, the overall structure and the interactions with DANA are similar to observations based on our structures. The overall rms distance in equivalent Cα positions is 0.4 Å.

To reveal the molecular mechanism for substrate/inhibitor recognition, we have determined the structures of NanA in complex with the sialic acid compound N-acetylneuraminic acid (NANA) and the transition state analog DANA at 1.7 Å resolution (Table 1). There is essentially no conformational change in the protein upon the binding of these inhibitors. The rms distance in equivalent Cα atoms among the structures of the free enzyme, the NANA complex, and the DANA complex is about 0.15 Å. In addition, there is essentially no conformational change in the active site of the enzyme, where the inhibitors bind.

TABLE 1 Summary of crystallographic information NanA in NanA in complex complex NanPs free NanA free with with enzyme enzyme DANA NANA Resolution 30-1.6 30-1.7 30-1.7 30-1.7 range (Å) Number of 377,554 636,912 279,534 251,113 observations R_(merge) (%)^(a)  8.8 (36.5) 4.1 (9.4) 3.0 (7.3)  6.0 (14.2) I/σI 26.2 (4.9)  38.8 (10.7) 31.1 (11.5) 25.3 (6.6)  Redundancy 4.3 (3.9) 3.4 (3.2) 3.0 (2.5) 2.8 (2.5) Number of 85,363 183,283 93,563 86,772 reflections Completeness 96 (91) 92 (90) 93 (86) 87 (70) (%) R factor (%) 17.2 (21.7) 17.2 (20.4) 17.8 (20.5) 17.5 (20.8) Free R factor 19.1 (23.7) 19.8 (23.4) 20.9 (24.7) 20.9 (24.8) (%) Residues in 86 86 86 86 most favored region of the Ramachandran plot (%) rmsd in bond 0.005 0.005 0.007 0.005 lengths (Å) rmsd in bond 1.4 1.4 1.3 1.4 angles (°) Protein Data Bank entry code ^(a)The numbers in parenthesis are for the highest resolution shell.

Clear electron density was observed for the NANA inhibitor, which is bound to NanA in a boat conformation (FIG. 1B). As observed in structures of NANA in complex with other neuraminidases, the compound is involved in a large network of ionic and hydrogen-bonding interactions with the active site of NanA (FIG. 1C; see also Table 3). The carboxyl group of NANA interacts with three Arg residues (Arg347, Arg663 and Arg721), and the amide nitrogen of NANA is hydrogen-bonded to the side chain of Asp417. The two hydroxyl groups on the ring of NANA interact with the side chains of Arg366, Asp417 and Asp372, the last of which is also hydrogen-bonded to one of the hydroxyls on the glycerol group. In addition to the polar interactions, several hydrophobic side chains are located near the inhibitor. Most importantly, residues Ile442 and Phe443 in the long loop at the beginning of the insertion in blade 2 (FIG. 1A) cover up part of the inhibitor and greatly reduce the size of the active site pocket, producing a tight fit between the inhibitor and the enzyme (FIG. 1D). DANA was bound in the same position as NANA, showing the same interactions with the enzyme except for the loss of the hydrogen-bond with Asp372 due to the absence of the hydroxyl group on the ring (FIG. 1C).

TABLE 3 Amino acid residues corresponding to the putative active site/ neuraminidase inhibitor-binding site (residues within 10 Å). Arg347 Arg366 Asp372 Asp417 Ile442 Phe443 Phe565 Tyr590 Gln602 Glu647 Arg663 Tyr695 Tyr752 Arg 721

Structure of the P. aeruginosa neuraminidase reveals exposed active site. The structure of the P. aeruginosa neuraminidase (NanPs) at 1.6 Å resolution was also determined (Table 1). The enzyme, previously referred to as NanA [A37], product of PA2794, has been renamed to reflect its differences to typical bacterial neuraminidases. The structure contains a six-bladed β-propeller in the N-terminal region (residues 1-334, FIG. 2A) and a C-terminal domain (C domain, residues 335-438) that belongs to the immuno-globulin superfamily, based on comparisons with other structures in the Protein Data Bank using the SSM server [A45]. A close structural homolog of the C domain is the immuno-globulin superfamily domain of the muscle protein twitchin [A46]. The rms distance among equivalent Cα atoms of the two structures is 3 Å, although the amino acid sequence identity is only 6%. This domain is located about 50 Å away from the active site of the enzyme (FIG. 2A); although our mutagenesis studies showed that it is important for the catalytic activity (FIG. 3). The domain mediates the formation of a trimer in the crystal, although the protein is monomeric in solution, based on gel-filtration and light scattering experiments.

The β-propeller domain of P. aeruginosa NanPs has the same overall structure as that of canonical neuraminidases. The rms distance among equivalent Cα atoms in P. aeruginosa NanPs and these other structures is 2.5-3 Å, but the amino acid sequence identity is 7-19%. Some of the important residues in the active site are also conserved in NanPs, consistent with our observation that it confers some neuraminidase activity [A47]. We constructed Asp79Ala (Asp417 in NanA) and Arg260Ala (Arg721 in NanA) mutations in the active site of NanPs and found these residues to be important for activity (FIG. 3). The mutation of Arg292 in the influenza neuraminidase, equivalent to Arg198 in NanPs and Arg663 in NanA, to a lysine confers resistance to the inhibitor oseltamivir [A48]. However, the Arg198Lys mutant of NanPs showed loss of activity (FIG. 3).

There are dramatic differences in the shape of the active site region between NanPs and the other neuraminidases. Compared to NanA (FIG. 1D), the active site region of NanPs is much more open (FIG. 2B). An important cause of this difference is the lack of the insertion in the second blade of the propeller. The long loop at the beginning of this insertion, especially the side chains of Ile442 and Phe443 (FIG. 1C), is absent in NanPs (FIG. 2C), leading to a much more exposed active site. Additionally, variations at other amino acid residues also contribute to the different active site topography of NanPs. For example, the side chain of Phe129 in NanPs clashes with the bound position of the acetyl group in NANA (FIG. 2C), and this is the only recognizable clash between the inhibitor and the NanPs active site (FIG. 2B). The equivalent residue in NanA is Gly567.

Several other residues in the NANA binding site are not conserved in NanPs (FIG. 2C). Especially, of the four arginine residues that interact with NANA in NanA, two (Arg347 and Arg366) are replaced with other residues (His23 and A1a42) in NanPs, while the other two assume different conformations in NanPs (FIG. 2C). In addition, Asp372 in NanA is replaced by Gly47 in NanPs. The structural information shows that the active site region of NanPs is not a good fit for the NANA inhibitor (FIG. 2B), indicating that NanPs is probably not a conventional neuraminidase, and its natural substrate(s) remain to be identified.

Phylogeny of the S. pneumoniae and P. aeruginosa neuraminidases. To better ascertain the evolutionary relatedness of NanA and NanPs, a phylogenetic analysis of a number bacterial, eukaryotic and viral neuraminidases was conducted (FIG. 4). The neuraminidase superfamily is known to be highly divergent [A2, A4], and, NanA and NanPs cluster at separate branches of the tree. NanA was aligned closest to the erysipeloid-causing bacterium Erysipelothrix rhusiopathiae [A49] (FIG. 4). NanA also clustered closely to the large neuraminidase of C. perfringens [A41] and was more closely related to well characterized bacterial neuraminidases than NanPs. NanPs was part of a deeply rooted branch that was closer to the trypanosome trans-sialidases than the enteric neuraminidases. NanPs was most closely matched to a putative neuraminidase from the aquatic organism Blastopirellula marina [A50].

Biochemical properties of pneumococcal NanA. The biochemical activity of NanA was assayed using the fluorogenic sialic acid derivative 2′-(4-methylumbelliferyl)-α-D-N-acetylneuraminic acid (MNN). NanA was observed to cleave the fluorogenic substrate significantly at low nanomolar and even at picomolar concentrations (FIG. 5A). The Km of NanA for this substrate is about 1.4 mM, which is generally comparable to the Km values reported for other neuraminidases. The neuraminidase from Vibrio cholerae requires divalent cations, specifically calcium, to be active [A40, A51]. Although calcium was not essential for NanA activity, an increase in activity of 70% was observed at a Ca²⁺ concentration of 1 mM (FIG. 5B). We observed a 50% activity increase in the presence of magnesium ions (FIG. 5B) and decreased activity in the presence of iron and copper, presumably due to their larger molecular masses (FIG. 5B). The presence of either copper or ferric ions decreased activity by 90% or greater at millimolar levels, indicating that NanA can possess a cation binding site.

We next tested the ability of sialic acids to competitively inhibit NanA activity. NANA was able to cause 50% inhibition at 600 μM (FIG. 6). We observed higher inhibition with the transition state analog DANA compared to NANA. DANA was able to reduce activity by 50% at 200 μM and this inhibitory potency is in the range that is observed for other neuraminidases [A39, A52]. As a comparison, NANA and DANA possess very weak inhibitory activity towards the P. aeruginosa neuraminidase, 50% inhibition being achieved in the 10 millimolar range with both compounds [A37].

Biological activity of pneumococcal NanA. Many lung pathogens are able to bind to the asialylated ganglioside receptor GM1 (aGM1, Galβ1-3GalNAcβ1-4Galβ1-4Galβ1-Cer), including P. aeruginosa and S. pneumoniae [A22]. The neuraminidase from P. aeruginosa is able to expose this receptor [A47]; we sought to investigate if this was also the case for S. pneumoniae. Either purified NanA or concentrated supernatant from wild-type S. pneumoniae strain D39 but not its isogenic nanA mutant exposed aGM1 on the surface of 16HBE epithelial cells (FIG. 7). We then investigated the biological significance of this sialic acid release (FIG. 8). No effect on bacterial adherence was observed (FIG. 8A) nor was there a growth advantage in the presence of airway epithelial cells associated with the wild-type strain. Consistent with intratracheal infection studies [A29] and other colonization studies [A20], we did not observe a decrease in the ability for the nanA mutant to colonize mouse lungs after infection under anesthesia (FIG. 8B), although we did observe a trend towards less inflammation as assessed by neutrophil recruitment to the lung (FIG. 8C).

S. pneumoniae neuraminidase is involved in biofilm formation. A major function of the P. aeruginosa neuraminidase is its participation in cell-cell interactions necessary for biofilm formation [A37]. As S. pneumoniae nanA expression is upregulated in lung tissue and in biofilm-growing cells [A16] we investigated the contribution of nanA to the formation of biofilms (FIG. 9). Exposure of S. pneumoniae to airway epithelial cells caused a significant increase in biofilm formation and the nanA mutant had significantly reduced capacity to form biofilms. In an S. pneumoniae R6, unencapsulated background the nanA strain was also significantly reduced in its ability to form biofilms (FIG. 9). Of note, no difference in biofilm formation was observed when S. pneumoniae was grown on plastic without previous airway cell interaction.

Identification of small molecule inhibitors to the neuraminidases. Due to their comparable roles in the colonization and infection of the respiratory tract it seemed reasonable to predict that inhibitors targeting neuraminidases can prevent these respiratory infections. Inhibitors against the influenza neuraminidase, zanamivir (GSK) and oseltamivir (Roche) were both developed from structure-based design relying on high-resolution X-ray crystal structures and functional data [A3]. Oseltamivir was found to inhibit NanA in the micromolar to low millimolar range (FIG. 10), IC₅₀ 2 mM, a similar 50% inhibition was observed with NanPs at around 600 μM concentration (FIG. 10).

In an effort to identify small molecule inhibitors specific to the bacterial neuraminidases, a virtual library screen was performed (Schrödinger LLC, Portland, Oreg., USA) using the Glide software and the structure of NanPs [A53, A54]. The Glide analysis examines receptor-ligand docking, running a high-throughput screen of candidate compounds against the active site, a process that has been successful in identifying inhibitors of other enzymes [A55]. A number of compounds identified from this screen showed high degrees of inhibition in vitro, more-so with the pneumococcal enzyme which appears to behave more like a neuraminidase than P. aeruginosa (FIG. 11A). A lead compound, designated XX1, with a quinoline-based chemical scaffold that possesses appropriate pharmacokinetic properties for use in humans, such as adherence to the Lipinski rule of 5, was chosen for further analysis [A56]. XX1 was found to inhibit NanPs (FIG. 11B) and NanA (FIG. 11C) over a range of concentrations and in a dose-dependent manner. Consistent with the differences in the active site between the two enzymes we also observed differences in inhibition by XX1. An IC₅₀ of 8.5 μM was determined for the S. pneumoniae neuraminidase and 29 μM for the neuraminidase of P. aeruginosa. The inhibition afforded by XX1 to NanA is greater than 20, 80 and 200 times more effective than DANA, NANA and oseltamivir, respectively. Analogs of XX1 as well as a number of different chemical scaffolds in the development of effective inhibitors are currently undergoing further testing and development.

Discussion

The neuraminidases of S. pneumoniae and P. aeruginosa share a common role in facilitating bacterial colonization of the respiratory tract [A11, A29, A30, A37]. We extend this observation further, to show that both enzymes, despite differences in phylogeny and structure, also contribute to biofilm formation. For S. pneumoniae, the biofilm phenotype is most evident in vivo [A57], or as we show, under in vitro conditions that favor neuraminidase expression. We were only able to demonstrate a difference in biofilm production after growth on human airway cells, which induces nanA expression [A15, A16, A18] and reduces capsule production [A58]. By selecting for organisms on human airway cells, we apparently mimic an in vivo process in which encapsulated organisms that are able to avoid mucus entrapment and clearance gradually produce less capsule to facilitate epithelial attachment [A7]. Enhanced biofilm formation was also associated with the R6 strain, which exhibits reduced capsule production, with its nanA mutant also displaying reduced propensity for biofilm formation. The P. aeruginosa biofilm phenotype is similarly complex, involving several groups of genes involved in motility and the production of extracellular carbohydrates [A59, A60]. Like S. pneumoniae, the P. aeruginosa nanA mutant forms a minimal biofilm on human airway cells and is readily cleared from the murine upper airway [A37], consistent with a major role for the enzyme in the colonization process. As organisms enmeshed in extracellular carbohydrates are significantly more difficult to opsonize and phagocytose, the biofilm phenotype even early in pathogenesis appears critical for upper airway colonization.

Sialic acids represent a major component of the glycolipids that comprise the exposed surface of the respiratory mucosa. While sialic acids provide binding sites for pathogens such as influenza, desialylated glycolipids provide receptors for many of the common bacterial pulmonary pathogens including both S. pneumoniae and P. aeruginosa [A22], which bind to the exposed GalNAcβ1-4Gal residues when terminal sialic acid is cleaved. The desialylation of airway mucosal cells by the influenza neuraminidase increases susceptibility to secondary infection often caused by S. pneumoniae [A61]. We demonstrate that culture supernatant from wild-type but not the nanA mutant of S. pneumoniae is also capable of exposing asialylated glycolipids on human airway cells. However, the neur-aminidase activity associated with intact organisms, either S. pneumoniae or P. aeruginosa was not associated with increased bacterial attachment, indicating that the neuraminidase activity has a different biological role in pathogenesis. For S. pneumoniae, which is able to metabolize the carbohydrates released from airway mucins, neuraminidase activity can provide a growth advantage in vivo, although this has only been demonstrated in vitro [A27, A28]. Despite these differences, the observation that NanA and NanPs are both involved in biofilm formation highlights a common strategy of these two respiratory pathogens which need to persist in the same ecological niche. Despite their differences in structure, and different substrates, both neuraminidases possess similar functions in pathogenesis.

The structure of NanA shows that it is similar to canonical neuraminidases, with an active site that is a good fit for the NANA substrate. Thus, without being bound by theory, NanA behaves like a typical neuraminidase, and this is supported by our biochemical data. Experiences with developing inhibitors against other bacterial and viral neuraminidases can be beneficial for developing NanA inhibitors. In contrast, the structure of NanPs shows a distinct active site surface, such that NANA can no longer be tightly accommodated in it. Therefore, the biochemical function of NanPs can be different from that of NanA, and NanPs can also have a different inhibitor sensitivity profile as compared to NanA, as confirmed from our studies. Even subtle differences in neuraminidase structure can change the specificity for substrates, as seen with the Trypanosome enzymes [A62]. This is also consistent with our phylogenetic analysis, showing large evolutionary separation between NanPs and NanA. Moreover, NanPs contains a unique C-terminal domain, which also appears to be essential for its catalytic activity. The exact biological function of this domain, and in fact of NanPs, remains to be established.

The current inhibitors against influenza neuraminidase were developed through structure-function studies. We adapted this approach to identify a common inhibitor for the neuraminidases of P. aeruginosa and S. pneumoniae. Instead of starting with a base scaffold we undertook in silico ligand-receptor docking studies to identify putative inhibitors using high-resolution crystal structures before screening in our in vitro neuraminidase assays. This allowed us to screen and subsequently identify a range of chemical scaffolds that showed inhibition. The neuraminidase superfamily is quite divergent with low sequence identities, yet still retains tertiary structure similarities like those we have observed between these two neuraminidases [A4]. The differences in active site and probable differences in substrate between NanA and NanPs are also consistent with their divergent family clustering. While the differences between P. aeruginosa and S. pneumoniae were apparent in inhibitor screening as was the inhibition profile to oseltamivir, several inhibitors provided analogous levels of inhibition. This enabled us to develop a lead compound that shows significant inhibition against the two enzymes. We should be able to reduce the IC₅₀ for both enzymes further once we have conducted structure activity relationship studies or alternatively, develop the other chemical scaffolds that showed promise in the initial screen. Due to the active site differences between the two enzymes, individual compounds specific to each enzymes active site to increase efficacy need to be developed.

Although these enzymes are distant relatives on the phylogenetic tree, have different active site conformations and have relatively major differences in the affinities of their respective active sites for sialic acid, they share a common function in pathogenesis and the formation of biofilms. Based upon the structural data now available, we have begun to develop highly active neuraminidase inhibitors to prevent bacterial infection in the target populations at increased risk.

Materials and Methods

Bacterial strains and media. S. pneumoniae strains D39 [A63], D39 nanA [A19] and R6 [A64] and R6 nanA [A20] were grown on trypticase-soy (TS) agar or broth supplemented with 200 U/ml catalase (Worthington) and 1 μg/ml of chloramphenicol for nanA strains. Plate cultures were grown at 37° C. in the presence of carbon dioxide (5%). Escherichia coli strains were grown on Luria-Bertani (LB) media at 37° C., when required ampicillin was used at 100 μg/ml. All chemicals were purchased from Sigma unless otherwise stated.

Epithelial cell culture. Human bronchial epithelial cells, 16HBE and human airway cells, 1HAEo⁻ (Originally from D. Gruenert California Pacific Medical Center Research Institute, San Francisco, Calif., USA), were grown in minimum essential medium with Earle's salts (Cellgro and Gibco respectively) supplemented with 10% fetal bovine serum (Cambrex and Gibco respectively), 100 U/ml penicillin and 100 ug/ml streptomycin. 16HBE cells were additionally supplemented with 2 mM glutamine (Invitrogen). Cells were grown at 37° C. with 5% CO₂ in a humidified incubator.

Protein expression and purification. Full-length (residues 1-438) P. aeruginosa NanPs or residues 116-1035 of S. pneumoniae D39 sialidase A precursor (NanA) were sub-cloned into the pET28a vector (Novagen) and over-expressed in E. coli BL21(DE3) at 20° C. as N-terminal hexa-histidine tagged proteins. Site-directed mutations of the P. aeruginosa gene were performed using QuikChange (Stratagene), while the C-terminal truncated protein represents residues 1-333 (of 438). The soluble protein was purified by nickel-agarose, anion exchange and gel filtration chromatography. The P. aeruginosa protein was concentrated to 37 mg/ml, and S. pneumoniae protein to 30 mg/ml, in a solution containing 20 mM Tris (pH 8.5) and 200 mM NaCl, flash-frozen in liquid nitrogen in the presence of 5% (v/v) glycerol, and stored at −80° C. The N-terminal His-tag was not removed for crystallization. For the production of selenomethionyl proteins, the expression construct was transformed into B834 (DE3) cells (Novagen). The bacterial growth was carried out in defined LeMaster media supplemented with selenomethionine [A65] proteins purified following the same protocol as that for the native protein.

Protein crystallization. Crystals of NanPs free enzyme were obtained at 21° C. by the sitting-drop vapor diffusion method. The reservoir solution contained 100 mM Hepes (pH 7.0), 5% Tacsimate, 7% (w/v) PEG 5000MME, and the protein was at 10 mg/ml concentration. Selenomethionine-labeled protein was cross-microseeded with crystals from native protein to obtain adequate crystals. For data collection, the crystals were cryoprotected with the introduction of 20% (v/v) ethylene glycol, and flash-frozen in liquid nitrogen.

The initial crystallization screen of NanA did not produce any hits. We therefore performed limited proteolysis to search for a stable fragment. By treating NanA with trypsin at 1000:1 (protein:trypsin) ratio, a stable fragment of ˜50 kDa molecular weight was observed, indicating that approximately 50 kDa was removed from the recombinant protein by the trypsin treatment. Crystals of NanA were obtained by the sitting-drop vapor diffusion method. The reservoir solution contained 100 mM Hepes (pH 7.0) and 30% Jeffamine ED-2001 (pH 7.0), the protein was at 30 mg/ml and the drops also contained trypsin (at 5000:1 protein:trypsin ratio). Similar to our previous experiences with other proteins [A66, A67], in situ proteolysis was essential for the crystallization of this recombinant protein. We confirmed that the protein in the crystal showed smaller molecular weight (˜50 kDa) than the original expression construct (˜101 kDa) by SDS-PAGE, in agreement with our results from limited proteolysis with trypsin. For the complexes of NanA with NANA and DANA, crystals of the free enzyme were soaked overnight in a solution containing 100 mM Hepes (pH 7.0), 35% Jeffamine ED-2001 (pH 7.0), and 5 mM of each compound (NANA or DANA).

Data collection and processing. X-ray diffraction data were collected at the National Synchrotron Light Source (NSLS; Upton, N.Y., USA). Selenomethionyl single-wavelength anomalous diffraction (SAD) data sets at 1.9 Å and 1.7 Å resolution were collected for NanPs and NanA respectively. Native data sets at 1.6 Å resolution for NanPs and at 1.7 Å resolution for the NANA and DANA complexes of NanA were collected at the X4C beamline. The diffraction images were processed and scaled with the HKL package [A68]. The NanPs crystals belong to space group P2₁3, with cell parameters of a=b=c=125.6 Å. There is one molecule in the crystallographic asymmetric unit. The NanA crystals belong to the space group C2, with cell parameters of a=158.0 Å, b=47.7 Å, c=137.3 Å, and β=116.6°. There are two molecules in the crystallographic asymmetric unit.

Structure determination and refinement. The positions of Se atoms were determined with program BnP [A69]. Reflection phases were calculated based on the SAD data and improved with the program SOLVE/RESOLVE [A70], which also automatically located a large percentage of the residues in the molecule. The atomic model was fit into the electron density with the program O [A71]. The structure refinement was carried out with the program CNS [A72]. The crystallographic information is summarized in Table 1.

Neuraminidase assay. Neuraminidase activity of NanA was detected using the fluorogenic substrate 2′-(4-methylumbelliferyl)-α-D-N-acetylneuraminic acid (MNN, Sigma). Reactions contained 1.5 mM MNN, 1 nM of NanA in 2.5 mM sodium phosphate buffer (pH 5). Reactions were allowed to incubate for 2 h at 37° C. before fluorescence intensity was measured at excitation and emission wavelengths of 360 nm and 465 nm in a Tecan microplate reader (Männedorf, Switzerland). NanPs was assayed as above with 1 mM of enzyme in 7.5 mM sodium chloride and 4 mM calcium chloride. Compounds were screened at a concentration of 100 μM before dose-dependence was established. Compounds were obtained from a variety of sources (Otava, Kyiv, Ukraine; Interbioscreen, Moscow, Russia; Chembridge San Diego, USA; Maybridge, Cornwell, UK; Sigma, St Louis, USA; Princeton, Princeton, USA; Lifechem, Burlington, Canada; Enamine, Kiev, Ukraine). Neuraminidase assays with oseltamivir were performed using the hydrolyzed version of the compound. Divalent cations were supplied in the form of calcium, magnesium, ferric and copper chloride. All neuraminidase assays were performed at least in triplicate.

Quantification of asialoGM1 exposure by flow cytometry. 16HBE cells were grown in 24-well plates to confluence and exposed to bacterial supernatants for 3 h followed by three PBS washes. Supernatants were concentrated approximately 30-fold (Amicon Ultra, Millipore) and adjusted for protein quantity. As a control media alone was also concentrated. Cells were stained with rabbit polyclonal anti aGM1 antibody (Wako) followed by Alexa Fluor 488 donkey anti-rabbit IgG (Molecular Probes). Cells were detached from the plates using 0.02% EGTA in HBSS (Hanks buffered saline solution), fixed with 1% paraformaldehyde and analyzed on a FACSCalibur using CellQuest software (version 3.3; BD). Data were analyzed using WinMDI (version 2.8, Joseph Trotter).

Adherence assay. Adherence assays were performed using 16HBE cells. Bacterial strains were grown to mid-log phase, washed with PBS and 0.7-2×10⁷ cfu of bacterial cells were added to confluent monolayers in 24-well plates. Bacterial cells were allowed to adhere for 1 h at 37° C. before three washes with PBS. Bacteria were dissociated from epithelial cells using TrypLE Express (Gibco) and plated out to determine adherent numbers. The assay was performed with three biological replicates with duplicate technical replicates over two separate experiments.

Biofilm assay. Bacterial strains were grown to mid-log phase before being diluted 1:100 in TS broth and catalase. 100 μl of diluted culture was added in triplicate to 96-well flat bottom tissue culture treated plates (Falcon) and left for 18-24 h at 37° C. with 5% CO₂. Plates were read at 600 nm to determine levels of growth before being washed in water. Adherent biofilm-forming cells were then stained with 125 μL of 1% crystal violet for 15 min before two further washes in water and allowed to dry. Bound crystal violet was then suspended in 200 μL of ethanol, shaken for 15 min and read at 540 nm.

Biofilm formation after epithelial cell interaction. Bacterial strains were grown and inoculated onto 1HAEo⁻ cells as per adherence assay. After the initial PBS washes fresh MEM media was applied before a further 1 h incubation. This removal and addition of fresh media was repeated a further four times before detachment of adherent bacteria using TrypLE Express (Gibco). The detached bacteria were then diluted 1:100 in TS broth and catalase and assayed as per the biofilm assay. Samples were repeated four times, each time in sextuplicate using epithelial cells without bacteria as a negative control.

Mouse model of pneumonia. Six-week-old C57Bl/6J mice (Jackson Laboratories) were anaesthetized with ketamine (100 mg/kg) and xylazine (5 mg/kg) before intranasal inoculation with bacteria. Bacteria were grown to mid-log phase, washed with PBS and 3−4×10⁵ cfu inoculated down the nare in a 10 μL volume. The infection persisted for 24 h before euthanasia with pentobarbital. Lungs were removed, homogenized, and plated out to determine bacterial numbers representative of pneumonia and bacteremia respectively. A portion of the lung homogenate was double-stained with phycoerythrin-labeled anti-CD45 and FITC-labeled anti-Ly6G antibodies to determine neutrophil influx into the lung by flow cytometry. Irrelevant, matched isotope antibodies were used as controls. Cells were gated based on forward and site scatter with neutrophils expressed as the Ly6G positive population within CD45 positive cells.

Phylogenetic analysis. Our sampling strategy was aimed at maximizing phylogenetic breadth in order to understand the overall pattern of evolution in the neuraminidase/sialidase gene family. We began with a list of well-known neuraminidases including those from V. cholerae, S. typhimurium, C. perfringens, S. pneumoniae, T. cruzi, and P. aeruginosa. For each sequence we did a standard BLAST search and collected one sequence from each genus in the list of hits that had an e-value score of 1×10⁻⁵ or lower. Duplicates were deleted. We also included sequences that have been included in other prior publications on the evolution of sialidases [A4]. A list of sequences and gene identification numbers is included as supplemental information. Sequences were aligned using the ClustalW algorithm as implemented in the program BioEdit using default settings. Sequences were aligned as amino acids and then transposed back to the original nucleotide sequences maintaining the gaps determined by the initial alignment (5394 characters total, 4124 parsimony informative characters with gaps as a fifth state, 3766 parsimony informative characters with gaps as treated as missing).

A rigorous phylogenetic analysis was undertaken using maximum parsimony (MP) algorithm implemented in PAUP* [A73]. 1000 replicates of random addition (RA) was performed followed by the tree branch reconnection (TBR) algorithm using the “multrees” option to save more than one optimal tree if discovered in the search. All characters and state transformations were given equal weight. Terminal gaps were scored as missing data in all analyses. We performed two analyses designating internal gaps as a fifth character state in one and as missing data in the other. Although the trees had many nodes in agreement there were major differences between the structures of the 2 trees. Since gaps can be informative characters [A74, A75], analysis in which internal gaps are counted as character states were used. Nonparametric bootstrap analyses was performed with 100 iterations consisting of 100 RA replicates followed by TBR to gauge the robustness of the tree.

Statistics. Significance of data was determined either using a students t-test or non-parametric Mann-Whitney test using GraphPad Prism software.

Accession numbers. The GenBank (www.ncbi.nlm.nih.gov/Entrez/) accession numbers utilized for phylogenetic analysis are: Verrucomicrobium spinosum gi|164421336:353068-354225, Blastopirellula marina gi|87311313:89394-90503, Lentisphaera araneosa gi|149198907:89577-90743, Propionibacterium acnes gi|50841496:752060-754375, Ruminococcus lactaris gi|197302028:32228-35857, Erysipelothrix rhusiopathiae gi|13516389:295-3807, Pasteurella multocida gi|15601865:1176085-1179327, Actinomyces odontolyticus gi|145845834:308755-310992, Mannheimia haemolytica gi|125433996:1-2376, Haemophilus parasuis gi|167854877:54475-56886, Bacteroides fragilis gi|53711291:4836372-4838006, Akkermansia muciniphila gi|187734516:2229943-2231967, Capnocytophaga canimorsus gi|194454827:2197-3765, Parabacteroides distasonis gi|150006674:3525685-3527310, Shewanella pealeana gi|157959830:1838982-1841831, Flavobacteriales bacterium gi|88710837:680637-681797, Rhodopirellula baltica gi|32470666:1724290-1725519, Opitutaceae bacterium gi|153892517:3249-4847, Sassharopolyspora erythraea gi|134096620:5769332-5771182, Pseudoalteromonas haloplanktis gi|77361923:196316-197458, Chthoniobacter flavus gi|196231426:66519-67730, Janibacter sp. gi|84494251:767782-770736, Monosiga brevicollis gi|167534964:1-984, Strongylocentrotus purpuratus gi|115616575:1-719, Planctomyces maris gi|149177549:10030-11205, Acinetobacter baumannii gi|169632029:647539-649371, Opitutaceae bacterium gi|153890920:5481-6641, Danio rerio gi|148539964:69-1220, Corynebacterium diptheriae gi|38232642:512872-515037, Gemmata obscuriglobus gi|163804184:63331-64515, Streptomyces coelicolor gi132141095:7255596-7257542, Takifugu rubripes gi|148372013:1-87, V. cholerae gi|12057212:1933231-1935654, C. perfringens nanI gi|18308982:900997-903081, C. perfringens nanH gi|18308982:904693-905499, P. aeruginosa gi|110227054:3150886-3152202, C. septicum gi140662, C. sordellii gi|1710442, A. viscosus gi|39254, Trypanosoma rangeli gi|2894809, T. cruzi gi|162265, T. cruzi SAPA (shed-acute-phase-antigen) gi|10943, Micromonosporta viridifaciens gi|216782:816-2759, Arthrobacter ureafaciens gi|60544840, Influenzae A H5N1 gi|108671038, Macrobdella decora gi|1353880, Salmonella typhimurium gi|16763390:1002088-1003326, S. pneumoniae gi|116515308:1522475-1525468, Arcanobacterium pyogenes gi|18146340:1026-6239, Xenopus laevis gi|148228846:180-1376, Trichomonas vaginalis gi|123473002:1-1050, Rattus norvegicus gi|71896601:59-1288, Bos taurus gi|149676185:61-219, 650-842, 1541-1803, 2490-2672, 2849-3071, 3185-3411, and Monodelphis domestica gi|126309689:1-1404.

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Example 2 In Silico Screening

In silico screening. To demonstrate the feasibility of identifying candidate molecule inhibitors, in silico, computational modeling software can be utilized in conjunction with high-resolution crystal structure results (for example, using the X-ray coordinates of Table 2) to screen databases for existing compounds that would bind to the active site of the Streptococcus neuraminidase (see Sherman et al., (2006) Chem Biol Drug Des 67(1): 83-4). The atomic coordinates for residues of a S. pneumoniae neuraminidase crystal were obtained from PDB Structure No. 2vvZ (available at, http://www.pdb.org/pdb/explore.do? structureId=2VVZ).

TABLE 2 Atomic Coordinates for S. pneumoniae Neuraminidase Crystal. Table 2 discloses SEQ ID NOS: 3 and 4, respectively. CRYST1 49.206 95.626 226.596 90.00 90.00 90.00 P 21 21 21 8 ATOM 1 N ALA A 322 16.926 39.763 36.357 1.00 30.98 N ATOM 2 CA ALA A 322 18.021 40.720 36.692 1.00 31.11 C ATOM 3 C ALA A 322 18.342 40.708 38.189 1.00 31.33 C ATOM 4 O ALA A 322 17.520 40.297 39.013 1.00 31.21 O ATOM 5 CB ALA A 322 17.669 42.134 36.222 1.00 31.03 C ATOM 6 N LEU A 323 19.546 41.175 38.517 1.00 31.48 N ATOM 7 CA LEU A 323 20.086 41.158 39.870 1.00 31.45 C ATOM 8 C LEU A 323 20.926 42.428 40.038 1.00 31.70 C ATOM 9 O LEU A 323 21.666 42.800 39.128 1.00 31.75 O ATOM 10 CB LEU A 323 20.941 39.896 40.060 1.00 31.28 C ATOM 11 CG LEU A 323 21.781 39.620 41.314 1.00 31.31 C ATOM 12 CD1 LEU A 323 20.920 39.323 42.525 1.00 29.41 C ATOM 13 CD2 LEU A 323 22.738 38.460 41.055 1.00 31.25 C ATOM 14 N THR A 324 20.804 43.098 41.182 1.00 31.95 N ATOM 15 CA THR A 324 21.581 44.320 41.430 1.00 32.37 C ATOM 16 C THR A 324 23.043 44.005 41.748 1.00 32.57 C ATOM 17 O THR A 324 23.379 42.879 42.113 1.00 32.43 O ATOM 18 CB THR A 324 20.982 45.190 42.567 1.00 32.46 C ATOM 19 OG1 THR A 324 20.949 44.444 43.796 1.00 32.85 O ATOM 20 CG2 THR A 324 19.580 45.667 42.203 1.00 32.29 C ATOM 21 N GLU A 325 23.914 44.997 41.583 1.00 32.98 N ATOM 22 CA GLU A 325 25.307 44.854 42.004 1.00 33.36 C ATOM 23 C GLU A 325 25.321 44.853 43.524 1.00 32.91 C ATOM 24 O GLU A 325 24.356 45.293 44.160 1.00 32.79 O ATOM 25 CB GLU A 325 26.194 45.986 41.463 1.00 33.55 C ATOM 26 CG GLU A 325 25.966 46.359 39.991 1.00 35.86 C ATOM 27 CD GLU A 325 25.949 45.156 39.048 1.00 38.13 C ATOM 28 OE1 GLU A 325 26.927 44.374 39.044 1.00 39.16 O ATOM 29 OE2 GLU A 325 24.957 45.002 38.300 1.00 38.96 O ATOM 30 N LYS A 326 26.400 44.347 44.109 1.00 32.46 N ATOM 31 CA LYS A 326 26.471 44.286 45.560 1.00 32.04 C ATOM 32 C LYS A 326 26.632 45.671 46.184 1.00 31.69 C ATOM 33 O LYS A 326 27.401 46.506 45.706 1.00 31.56 O ATOM 34 CB LYS A 326 27.534 43.280 46.048 1.00 31.93 C ATOM 35 CG LYS A 326 28.980 43.619 45.753 1.00 32.00 C ATOM 36 CD LYS A 326 29.899 42.521 46.273 1.00 32.02 C ATOM 37 CE LYS A 326 31.350 42.984 46.340 1.00 31.95 C ATOM 38 NZ LYS A 326 31.616 43.884 47.501 1.00 31.51 N ATOM 39 N THR A 327 25.841 45.919 47.220 1.00 31.37 N ATOM 40 CA THR A 327 25.969 47.110 48.040 1.00 30.95 C ATOM 41 C THR A 327 26.493 46.624 49.387 1.00 30.70 C ATOM 42 O THR A 327 25.834 45.830 50.063 1.00 30.83 O ATOM 43 CB THR A 327 24.611 47.824 48.191 1.00 30.88 C ATOM 44 OG1 THR A 327 24.012 47.976 46.900 1.00 31.31 O ATOM 45 CG2 THR A 327 24.771 49.194 48.818 1.00 30.55 C ATOM 46 N ASP A 328 27.693 47.068 49.752 1.00 30.24 N ATOM 47 CA ASP A 328 28.331 46.641 50.999 1.00 29.79 C ATOM 48 C ASP A 328 27.777 47.416 52.192 1.00 29.68 C ATOM 49 O ASP A 328 27.874 48.642 52.253 1.00 29.82 O ATOM 50 CB ASP A 328 29.857 46.776 50.911 1.00 29.49 C ATOM 51 CG ASP A 328 30.466 45.925 49.797 1.00 28.84 C ATOM 52 OD1 ASP A 328 29.844 44.938 49.350 1.00 27.94 O ATOM 53 OD2 ASP A 328 31.587 46.240 49.364 1.00 29.00 O ATOM 54 N ILE A 329 27.196 46.687 53.137 1.00 29.47 N ATOM 55 CA ILE A 329 26.494 47.288 54.267 1.00 29.07 C ATOM 56 C ILE A 329 27.360 47.296 55.518 1.00 28.81 C ATOM 57 O ILE A 329 27.310 48.232 56.312 1.00 28.75 O ATOM 58 CB ILE A 329 25.163 46.557 54.527 1.00 29.19 C ATOM 59 CG1 ILE A 329 24.320 46.574 53.249 1.00 29.38 C ATOM 60 CG2 ILE A 329 24.403 47.188 55.704 1.00 29.20 C ATOM 61 CD1 ILE A 329 22.992 45.930 53.392 1.00 31.12 C ATOM 62 N PHE A 330 28.148 46.243 55.691 1.00 28.67 N ATOM 63 CA PHE A 330 29.116 46.188 56.774 1.00 28.49 C ATOM 64 C PHE A 330 30.485 45.859 56.198 1.00 28.56 C ATOM 65 O PHE A 330 30.736 44.737 55.768 1.00 28.31 O ATOM 66 CB PHE A 330 28.686 45.175 57.843 1.00 28.25 C ATOM 67 CG PHE A 330 27.335 45.451 58.434 1.00 27.52 C ATOM 68 CD1 PHE A 330 27.167 46.449 59.384 1.00 27.43 C ATOM 69 CD2 PHE A 330 26.229 44.712 58.040 1.00 26.97 C ATOM 70 CE1 PHE A 330 25.910 46.706 59.933 1.00 26.69 C ATOM 71 CE2 PHE A 330 24.978 44.962 58.584 1.00 26.68 C ATOM 72 CZ PHE A 330 24.820 45.964 59.532 1.00 26.63 C ATOM 73 N GLU A 331 31.352 46.869 56.178 1.00 29.24 N ATOM 74 CA GLU A 331 32.663 46.789 55.536 1.00 29.53 C ATOM 75 C GLU A 331 33.765 46.450 56.531 1.00 29.79 C ATOM 76 O GLU A 331 34.145 47.264 57.373 1.00 29.56 O ATOM 77 CB GLU A 331 32.978 48.099 54.806 1.00 29.60 C ATOM 78 CG GLU A 331 32.340 48.199 53.422 1.00 30.13 C ATOM 79 CD GLU A 331 32.114 49.631 52.963 1.00 30.75 C ATOM 80 OE1 GLU A 331 31.891 50.513 53.825 1.00 30.82 O ATOM 81 OE2 GLU A 331 32.138 49.871 51.732 1.00 31.12 O ATOM 82 N SER A 332 34.260 45.224 56.429 1.00 30.39 N ATOM 83 CA SER A 332 35.356 44.748 57.250 1.00 31.12 C ATOM 84 C SER A 332 36.671 45.340 56.765 1.00 31.94 C ATOM 85 O SER A 332 36.772 45.795 55.624 1.00 31.94 O ATOM 86 CB SER A 332 35.439 43.238 57.128 1.00 31.01 C ATOM 87 OG SER A 332 35.598 42.890 55.764 1.00 30.34 O ATOM 88 N GLY A 333 37.683 45.299 57.626 1.00 32.89 N ATOM 89 CA GLY A 333 39.024 45.747 57.270 1.00 34.20 C ATOM 90 C GLY A 333 39.639 44.943 56.139 1.00 35.07 C ATOM 91 O GLY A 333 38.975 44.135 55.489 1.00 35.10 O ATOM 92 N ARG A 334 40.926 45.155 55.910 1.00 36.11 N ATOM 93 CA ARG A 334 41.588 44.555 54.763 1.00 37.10 C ATOM 94 C ARG A 334 42.965 44.028 55.157 1.00 37.48 C ATOM 95 O ARG A 334 43.701 44.697 55.883 1.00 37.79 O ATOM 96 CB ARG A 334 41.694 45.591 53.646 1.00 37.10 C ATOM 97 CG ARG A 334 41.622 45.022 52.252 1.00 38.09 C ATOM 98 CD ARG A 334 41.571 46.140 51.223 1.00 40.06 C ATOM 99 NE ARG A 334 40.205 46.614 50.985 1.00 41.41 N ATOM 100 CZ ARG A 334 39.393 46.132 50.044 1.00 42.25 C ATOM 101 NH1 ARG A 334 39.799 45.146 49.250 1.00 42.54 N ATOM 102 NH2 ARG A 334 38.169 46.629 49.898 1.00 42.42 N ATOM 103 N ASN A 335 43.287 42.816 54.702 1.00 38.00 N ATOM 104 CA ASN A 335 44.598 42.185 54.940 1.00 38.53 C ATOM 105 C ASN A 335 44.981 42.033 56.420 1.00 38.73 C ATOM 106 O ASN A 335 46.141 42.228 56.797 1.00 38.87 O ATOM 107 CB ASN A 335 45.703 42.923 54.169 1.00 38.55 C ATOM 108 CG ASN A 335 45.397 43.047 52.692 1.00 39.10 C ATOM 109 OD1 ASN A 335 45.242 42.041 51.992 1.00 39.31 O ATOM 110 ND2 ASN A 335 45.303 44.286 52.206 1.00 39.00 N ATOM 111 N GLY A 336 43.998 41.680 57.244 1.00 38.91 N ATOM 112 CA GLY A 336 44.207 41.458 58.671 1.00 38.98 C ATOM 113 C GLY A 336 44.160 42.735 59.486 1.00 39.17 C ATOM 114 O GLY A 336 44.228 42.692 60.715 1.00 39.17 O ATOM 115 N LYS A 337 44.022 43.867 58.799 1.00 39.32 N ATOM 116 CA LYS A 337 44.107 45.185 59.426 1.00 39.69 C ATOM 117 C LYS A 337 42.714 45.775 59.688 1.00 39.64 C ATOM 118 O LYS A 337 41.761 45.425 58.989 1.00 39.89 O ATOM 119 CB LYS A 337 44.952 46.125 58.551 1.00 39.94 C ATOM 120 CG LYS A 337 46.244 45.483 58.017 1.00 40.83 C ATOM 121 CD LYS A 337 47.322 46.512 57.697 1.00 42.53 C ATOM 122 CE LYS A 337 48.675 45.833 57.486 1.00 43.32 C ATOM 123 NZ LYS A 337 49.826 46.788 57.564 1.00 43.60 N ATOM 124 N PRO A 338 42.585 46.669 60.695 1.00 39.49 N ATOM 125 CA PRO A 338 41.265 47.234 60.990 1.00 39.39 C ATOM 126 C PRO A 338 40.805 48.174 59.890 1.00 39.40 C ATOM 127 O PRO A 338 41.629 48.672 59.123 1.00 39.58 O ATOM 128 CB PRO A 338 41.493 48.028 62.288 1.00 39.41 C ATOM 129 CG PRO A 338 42.826 47.590 62.809 1.00 39.36 C ATOM 130 CD PRO A 338 43.616 47.206 61.600 1.00 39.38 C ATOM 131 N ASN A 339 39.500 48.407 59.808 1.00 39.36 N ATOM 132 CA ASN A 339 38.961 49.373 58.862 1.00 39.08 C ATOM 133 C ASN A 339 39.037 50.792 59.424 1.00 39.21 C ATOM 134 O ASN A 339 39.694 51.028 60.440 1.00 39.20 O ATOM 135 CB ASN A 339 37.531 48.993 58.425 1.00 39.15 C ATOM 136 CG ASN A 339 36.486 49.158 59.536 1.00 38.50 C ATOM 137 OD1 ASN A 339 36.751 49.736 60.592 1.00 38.54 O ATOM 138 ND2 ASN A 339 35.284 48.651 59.283 1.00 36.87 N ATOM 139 N LYS A 340 38.347 51.723 58.769 1.00 39.27 N ATOM 140 CA LYS A 340 38.376 53.142 59.128 1.00 39.37 C ATOM 141 C LYS A 340 37.870 53.437 60.539 1.00 39.02 C ATOM 142 O LYS A 340 38.248 54.448 61.130 1.00 39.12 O ATOM 143 CB LYS A 340 37.583 53.950 58.097 1.00 39.58 C ATOM 144 CG LYS A 340 38.269 53.978 56.750 1.00 41.13 C ATOM 145 CD LYS A 340 37.355 53.536 55.610 1.00 42.86 C ATOM 146 CE LYS A 340 38.194 52.959 54.475 1.00 43.62 C ATOM 147 NZ LYS A 340 37.589 53.198 53.138 1.00 45.04 N ATOM 148 N ASP A 341 37.026 52.553 61.068 1.00 38.51 N ATOM 149 CA ASP A 341 36.457 52.715 62.406 1.00 38.06 C ATOM 150 C ASP A 341 37.210 51.950 63.490 1.00 37.55 C ATOM 151 O ASP A 341 36.918 52.109 64.675 1.00 37.75 O ATOM 152 CB ASP A 341 34.977 52.315 62.409 1.00 38.13 C ATOM 153 CG ASP A 341 34.138 53.167 61.466 1.00 38.60 C ATOM 154 OD1 ASP A 341 34.677 54.131 60.876 1.00 39.05 O ATOM 155 OD2 ASP A 341 32.937 52.873 61.310 1.00 38.41 O ATOM 156 N GLY A 342 38.176 51.128 63.082 1.00 37.00 N ATOM 157 CA GLY A 342 38.928 50.275 64.014 1.00 36.18 C ATOM 158 C GLY A 342 38.399 48.850 64.104 1.00 35.68 C ATOM 159 O GLY A 342 38.748 48.101 65.021 1.00 35.59 O ATOM 160 N ILE A 343 37.567 48.474 63.137 1.00 35.12 N ATOM 161 CA ILE A 343 36.891 47.181 63.136 1.00 34.44 C ATOM 162 C ILE A 343 37.482 46.258 62.072 1.00 33.85 C ATOM 163 O ILE A 343 37.526 46.609 60.893 1.00 33.74 O ATOM 164 CB ILE A 343 35.358 47.362 62.936 1.00 34.51 C ATOM 165 CG1 ILE A 343 34.752 48.069 64.155 1.00 34.45 C ATOM 166 CG2 ILE A 343 34.663 46.019 62.705 1.00 34.60 C ATOM 167 CD1 ILE A 343 33.600 48.974 63.828 1.00 34.27 C ATOM 168 N LYS A 344 37.932 45.083 62.502 1.00 33.13 N ATOM 169 CA LYS A 344 38.519 44.095 61.597 1.00 32.92 C ATOM 170 C LYS A 344 37.474 43.267 60.859 1.00 32.63 C ATOM 171 O LYS A 344 37.668 42.919 59.698 1.00 32.83 O ATOM 172 CB LYS A 344 39.473 43.146 62.341 1.00 32.80 C ATOM 173 CG LYS A 344 40.778 43.781 62.767 1.00 32.92 C ATOM 174 CD LYS A 344 41.797 42.749 63.204 1.00 32.67 C ATOM 175 CE LYS A 344 42.870 43.415 64.045 1.00 33.04 C ATOM 176 NZ LYS A 344 44.179 42.735 63.903 1.00 33.16 N ATOM 177 N SER A 345 36.374 42.944 61.531 1.00 32.16 N ATOM 178 CA SER A 345 35.434 41.964 60.998 1.00 31.66 C ATOM 179 C SER A 345 33.976 42.293 61.267 1.00 30.99 C ATOM 180 O SER A 345 33.632 42.812 62.323 1.00 31.06 O ATOM 181 CB SER A 345 35.751 40.579 61.569 1.00 31.68 C ATOM 182 OG SER A 345 34.727 39.647 61.259 1.00 32.06 O ATOM 183 N TYR A 346 33.138 41.993 60.279 1.00 30.39 N ATOM 184 CA TYR A 346 31.691 41.878 60.458 1.00 29.86 C ATOM 185 C TYR A 346 31.294 40.471 60.073 1.00 29.67 C ATOM 186 O TYR A 346 31.998 39.809 59.300 1.00 29.73 O ATOM 187 CB TYR A 346 30.939 42.893 59.607 1.00 29.70 C ATOM 188 CG TYR A 346 30.993 44.280 60.178 1.00 29.05 C ATOM 189 CD1 TYR A 346 30.108 44.668 61.177 1.00 28.28 C ATOM 190 CD2 TYR A 346 31.936 45.203 59.728 1.00 28.45 C ATOM 191 CE1 TYR A 346 30.147 45.939 61.713 1.00 28.72 C ATOM 192 CE2 TYR A 346 31.985 46.485 60.259 1.00 28.98 C ATOM 193 CZ TYR A 346 31.086 46.844 61.256 1.00 28.89 C ATOM 194 OH TYR A 346 31.118 48.103 61.797 1.00 28.99 O ATOM 195 N ARG A 347 30.173 39.998 60.601 1.00 29.19 N ATOM 196 CA ARG A 347 29.931 38.574 60.515 1.00 28.81 C ATOM 197 C ARG A 347 28.497 38.119 60.244 1.00 28.49 C ATOM 198 O ARG A 347 28.126 37.934 59.091 1.00 29.41 O ATOM 199 CB ARG A 347 30.533 37.884 61.736 1.00 28.82 C ATOM 200 CG ARG A 347 30.863 36.432 61.525 1.00 29.29 C ATOM 201 CD ARG A 347 31.917 36.202 60.452 1.00 28.12 C ATOM 202 NE ARG A 347 32.466 34.860 60.581 1.00 26.79 N ATOM 203 CZ ARG A 347 31.842 33.735 60.239 1.00 25.34 C ATOM 204 NH1 ARG A 347 30.620 33.755 59.726 1.00 24.11 N ATOM 205 NH2 ARG A 347 32.456 32.578 60.417 1.00 25.06 N ATOM 206 N ILE A 348 27.694 37.936 61.281 1.00 27.51 N ATOM 207 CA ILE A 348 26.475 37.125 61.157 1.00 26.38 C ATOM 208 C ILE A 348 25.240 37.916 60.699 1.00 25.66 C ATOM 209 O ILE A 348 24.578 38.548 61.513 1.00 25.60 O ATOM 210 CB ILE A 348 26.174 36.395 62.488 1.00 26.24 C ATOM 211 CG1 ILE A 348 27.458 35.795 63.082 1.00 25.88 C ATOM 212 CG2 ILE A 348 25.093 35.358 62.293 1.00 26.28 C ATOM 213 CD1 ILE A 348 28.075 34.649 62.278 1.00 25.29 C ATOM 214 N PRO A 349 24.902 37.843 59.401 1.00 25.14 N ATOM 215 CA PRO A 349 23.852 38.696 58.857 1.00 24.90 C ATOM 216 C PRO A 349 22.427 38.279 59.235 1.00 24.60 C ATOM 217 O PRO A 349 22.101 37.088 59.273 1.00 24.31 O ATOM 218 CB PRO A 349 24.048 38.564 57.343 1.00 24.88 C ATOM 219 CG PRO A 349 24.622 37.222 57.153 1.00 24.93 C ATOM 220 CD PRO A 349 25.458 36.942 58.373 1.00 25.22 C ATOM 221 N ALA A 350 21.600 39.281 59.514 1.00 24.17 N ATOM 222 CA ALA A 350 20.160 39.106 59.617 1.00 23.78 C ATOM 223 C ALA A 350 19.497 40.271 58.895 1.00 23.54 C ATOM 224 O ALA A 350 19.963 41.412 58.978 1.00 23.18 O ATOM 225 CB ALA A 350 19.721 39.049 61.072 1.00 23.76 C ATOM 226 N LEU A 351 18.418 39.969 58.179 1.00 23.31 N ATOM 227 CA LEU A 351 17.697 40.965 57.405 1.00 23.13 C ATOM 228 C LEU A 351 16.202 40.907 57.702 1.00 23.39 C ATOM 229 O LEU A 351 15.585 39.836 57.647 1.00 22.95 O ATOM 230 CB LEU A 351 17.956 40.755 55.908 1.00 23.17 C ATOM 231 CG LEU A 351 17.296 41.681 54.879 1.00 22.81 C ATOM 232 CD1 LEU A 351 17.969 43.055 54.855 1.00 22.43 C ATOM 233 CD2 LEU A 351 17.340 41.032 53.497 1.00 22.62 C ATOM 234 N LEU A 352 15.627 42.069 58.000 1.00 23.74 N ATOM 235 CA LEU A 352 14.204 42.164 58.315 1.00 24.04 C ATOM 236 C LEU A 352 13.492 43.266 57.531 1.00 24.38 C ATOM 237 O LEU A 352 13.972 44.394 57.444 1.00 24.28 O ATOM 238 CB LEU A 352 14.009 42.376 59.820 1.00 24.03 C ATOM 239 CG LEU A 352 12.602 42.258 60.418 1.00 23.64 C ATOM 240 CD1 LEU A 352 11.988 40.900 60.139 1.00 22.93 C ATOM 241 CD2 LEU A 352 12.663 42.521 61.916 1.00 23.76 C ATOM 242 N LYS A 353 12.343 42.917 56.962 1.00 24.93 N ATOM 243 CA LYS A 353 11.482 43.878 56.289 1.00 25.51 C ATOM 244 C LYS A 353 10.321 44.207 57.223 1.00 25.92 C ATOM 245 O LYS A 353 9.479 43.349 57.505 1.00 26.10 O ATOM 246 CB LYS A 353 10.992 43.310 54.951 1.00 25.43 C ATOM 247 CG LYS A 353 9.844 44.078 54.290 1.00 26.24 C ATOM 248 CD LYS A 353 10.319 45.283 53.506 1.00 26.71 C ATOM 249 CE LYS A 353 9.299 45.663 52.445 1.00 27.33 C ATOM 250 NZ LYS A 353 9.793 46.747 51.545 1.00 28.34 N ATOM 251 N THR A 354 10.290 45.446 57.707 1.00 26.34 N ATOM 252 CA THR A 354 9.312 45.856 58.713 1.00 26.83 C ATOM 253 C THR A 354 7.991 46.286 58.094 1.00 27.05 C ATOM 254 O THR A 354 7.927 46.640 56.913 1.00 27.14 O ATOM 255 CB THR A 354 9.835 47.017 59.594 1.00 27.06 C ATOM 256 OG1 THR A 354 9.667 48.263 58.904 1.00 27.15 O ATOM 257 CG2 THR A 354 11.307 46.818 59.956 1.00 26.85 C ATOM 258 N ASP A 355 6.943 46.276 58.913 1.00 27.35 N ATOM 259 CA ASP A 355 5.617 46.725 58.496 1.00 27.71 C ATOM 260 C ASP A 355 5.641 48.118 57.851 1.00 27.68 C ATOM 261 O ASP A 355 4.872 48.382 56.932 1.00 27.74 O ATOM 262 CB ASP A 355 4.660 46.716 59.685 1.00 27.94 C ATOM 263 CG ASP A 355 4.905 47.867 60.637 1.00 29.40 C ATOM 264 OD1 ASP A 355 6.036 47.986 61.160 1.00 31.07 O ATOM 265 OD2 ASP A 355 3.966 48.661 60.859 1.00 31.22 O ATOM 266 N LYS A 356 6.536 48.990 58.323 1.00 27.51 N ATOM 267 CA LYS A 356 6.687 50.340 57.774 1.00 27.35 C ATOM 268 C LYS A 356 7.400 50.361 56.417 1.00 27.10 C ATOM 269 O LYS A 356 7.531 51.422 55.809 1.00 27.21 O ATOM 270 CB LYS A 356 7.418 51.262 58.768 1.00 27.53 C ATOM 271 CG LYS A 356 6.581 51.769 59.965 1.00 28.45 C ATOM 272 CD LYS A 356 5.491 52.772 59.537 1.00 30.42 C ATOM 273 CE LYS A 356 5.221 53.838 60.618 1.00 32.33 C ATOM 274 NZ LYS A 356 4.313 53.411 61.736 1.00 31.55 N ATOM 275 N GLY A 357 7.859 49.199 55.949 1.00 26.67 N ATOM 276 CA GLY A 357 8.560 49.094 54.665 1.00 25.88 C ATOM 277 C GLY A 357 10.072 49.196 54.787 1.00 25.51 C ATOM 278 O GLY A 357 10.798 49.009 53.810 1.00 25.31 O ATOM 279 N THR A 358 10.538 49.486 55.997 1.00 25.09 N ATOM 280 CA THR A 358 11.956 49.614 56.308 1.00 24.94 C ATOM 281 C THR A 358 12.716 48.281 56.214 1.00 24.92 C ATOM 282 O THR A 358 12.170 47.220 56.524 1.00 24.85 O ATOM 283 CB THR A 358 12.101 50.183 57.721 1.00 25.01 C ATOM 284 OG1 THR A 358 11.295 51.364 57.833 1.00 25.55 O ATOM 285 CG2 THR A 358 13.553 50.499 58.067 1.00 24.51 C ATOM 286 N LEU A 359 13.969 48.342 55.772 1.00 24.81 N ATOM 287 CA LEU A 359 14.850 47.181 55.832 1.00 25.03 C ATOM 288 C LEU A 359 15.843 47.343 56.972 1.00 25.15 C ATOM 289 O LEU A 359 16.519 48.375 57.086 1.00 25.24 O ATOM 290 CB LEU A 359 15.587 46.957 54.509 1.00 25.21 C ATOM 291 CG LEU A 359 14.781 46.468 53.299 1.00 25.20 C ATOM 292 CD1 LEU A 359 15.661 46.440 52.055 1.00 25.07 C ATOM 293 CD2 LEU A 359 14.151 45.094 53.553 1.00 25.61 C ATOM 294 N ILE A 360 15.907 46.325 57.825 1.00 24.95 N ATOM 295 CA ILE A 360 16.827 46.310 58.954 1.00 24.62 C ATOM 296 C ILE A 360 17.867 45.226 58.729 1.00 24.61 C ATOM 297 O ILE A 360 17.532 44.063 58.479 1.00 24.37 O ATOM 298 CB ILE A 360 16.089 46.100 60.301 1.00 24.63 C ATOM 299 CG1 ILE A 360 15.068 47.225 60.514 1.00 24.76 C ATOM 300 CG2 ILE A 360 17.078 46.056 61.462 1.00 24.01 C ATOM 301 CD1 ILE A 360 14.451 47.273 61.894 1.00 24.77 C ATOM 302 N ALA A 361 19.130 45.627 58.808 1.00 24.60 N ATOM 303 CA ALA A 361 20.238 44.723 58.591 1.00 24.94 C ATOM 304 C ALA A 361 21.066 44.586 59.861 1.00 25.18 C ATOM 305 O ALA A 361 21.652 45.561 60.344 1.00 25.18 O ATOM 306 CB ALA A 361 21.102 45.211 57.421 1.00 24.77 C ATOM 307 N GLY A 362 21.109 43.370 60.395 1.00 25.45 N ATOM 308 CA GLY A 362 21.837 43.090 61.629 1.00 25.87 C ATOM 309 C GLY A 362 23.137 42.354 61.380 1.00 26.22 C ATOM 310 O GLY A 362 23.284 41.679 60.359 1.00 26.25 O ATOM 311 N ALA A 363 24.075 42.479 62.319 1.00 26.41 N ATOM 312 CA ALA A 363 25.381 41.818 62.222 1.00 26.59 C ATOM 313 C ALA A 363 26.126 41.768 63.555 1.00 26.72 C ATOM 314 O ALA A 363 25.861 42.559 64.461 1.00 26.55 O ATOM 315 CB ALA A 363 26.249 42.524 61.174 1.00 26.57 C ATOM 316 N ASP A 364 27.056 40.824 63.659 1.00 27.32 N ATOM 317 CA ASP A 364 28.113 40.872 64.670 1.00 27.96 C ATOM 318 C ASP A 364 29.148 41.914 64.252 1.00 28.25 C ATOM 319 O ASP A 364 29.701 41.834 63.153 1.00 28.09 O ATOM 320 CB ASP A 364 28.823 39.523 64.769 1.00 28.03 C ATOM 321 CG ASP A 364 28.051 38.499 65.580 1.00 28.42 C ATOM 322 OD1 ASP A 364 26.808 38.599 65.703 1.00 28.94 O ATOM 323 OD2 ASP A 364 28.711 37.568 66.085 1.00 28.84 O ATOM 324 N GLU A 365 29.402 42.889 65.116 1.00 28.82 N ATOM 325 CA GLU A 365 30.506 43.825 64.902 1.00 29.60 C ATOM 326 C GLU A 365 31.732 43.329 65.671 1.00 29.82 C ATOM 327 O GLU A 365 31.867 43.586 66.872 1.00 29.92 O ATOM 328 CB GLU A 365 30.113 45.237 65.343 1.00 29.43 C ATOM 329 CG GLU A 365 31.176 46.299 65.088 1.00 30.08 C ATOM 330 CD GLU A 365 30.750 47.681 65.553 1.00 30.47 C ATOM 331 OE1 GLU A 365 30.573 47.879 66.801 1.00 31.38 O ATOM 332 OE2 GLU A 365 30.597 48.577 64.661 1.00 32.02 O ATOM 333 N ARG A 366 32.609 42.604 64.979 1.00 30.14 N ATOM 334 CA ARG A 366 33.786 42.000 65.610 1.00 30.64 C ATOM 335 C ARG A 366 35.027 42.888 65.433 1.00 31.44 C ATOM 336 O ARG A 366 35.735 42.794 64.422 1.00 31.37 O ATOM 337 CB ARG A 366 34.010 40.577 65.077 1.00 30.44 C ATOM 338 CG ARG A 366 32.838 39.628 65.330 1.00 30.23 C ATOM 339 CD ARG A 366 33.048 38.251 64.723 1.00 30.14 C ATOM 340 NE ARG A 366 31.859 37.412 64.884 1.00 30.01 N ATOM 341 CZ ARG A 366 31.818 36.092 64.690 1.00 29.73 C ATOM 342 NH1 ARG A 366 32.904 35.422 64.317 1.00 29.14 N ATOM 343 NH2 ARG A 366 30.678 35.437 64.867 1.00 28.73 N ATOM 344 N ARG A 367 35.274 43.743 66.432 1.00 32.27 N ATOM 345 CA ARG A 367 36.270 44.828 66.350 1.00 33.32 C ATOM 346 C ARG A 367 37.701 44.372 66.026 1.00 33.71 C ATOM 347 O ARG A 367 38.281 44.799 65.029 1.00 33.82 O ATOM 348 CB ARG A 367 36.244 45.687 67.626 1.00 33.36 C ATOM 349 CG ARG A 367 37.319 46.769 67.688 1.00 33.75 C ATOM 350 CD ARG A 367 37.065 47.780 68.801 1.00 34.04 C ATOM 351 NE ARG A 367 36.038 48.758 68.436 1.00 36.56 N ATOM 352 CZ ARG A 367 36.251 49.861 67.712 1.00 37.62 C ATOM 353 NH1 ARG A 367 37.465 50.156 67.255 1.00 38.38 N ATOM 354 NH2 ARG A 367 35.239 50.676 67.438 1.00 37.68 N ATOM 355 N LEU A 368 38.258 43.507 66.865 1.00 34.18 N ATOM 356 CA LEU A 368 39.621 43.013 66.690 1.00 34.76 C ATOM 357 C LEU A 368 39.618 41.567 67.136 1.00 34.62 C ATOM 358 O LEU A 368 40.381 41.211 68.055 1.00 35.34 O ATOM 359 CB LEU A 368 40.577 43.815 67.604 1.00 35.04 C ATOM 360 CG LEU A 368 40.255 44.215 69.076 1.00 35.47 C ATOM 361 CD1 LEU A 368 39.579 43.129 69.942 1.00 35.53 C ATOM 362 CD2 LEU A 368 41.515 44.703 69.783 1.00 35.36 C ATOM 363 N HIS A 369 38.929 40.666 66.436 1.00 33.93 N ATOM 364 CA HIS A 369 39.323 40.134 65.150 1.00 32.84 C ATOM 365 C HIS A 369 38.123 39.426 64.500 1.00 32.11 C ATOM 366 O HIS A 369 36.996 39.907 64.578 1.00 32.24 O ATOM 367 CB HIS A 369 40.279 39.017 65.536 1.00 32.98 C ATOM 368 CG HIS A 369 39.838 38.310 66.786 1.00 32.77 C ATOM 369 ND1 HIS A 369 38.788 37.416 66.803 1.00 32.94 N ATOM 370 CD2 HIS A 369 40.230 38.448 68.075 1.00 32.59 C ATOM 371 CE1 HIS A 369 38.588 36.995 68.039 1.00 32.76 C ATOM 372 NE2 HIS A 369 39.449 37.608 68.831 1.00 32.77 N ATOM 373 N SER A 370 38.364 38.249 63.923 1.00 30.95 N ATOM 374 CA SER A 370 37.355 37.536 63.129 1.00 29.97 C ATOM 375 C SER A 370 36.725 36.290 63.787 1.00 29.37 C ATOM 376 O SER A 370 35.760 35.730 63.270 1.00 29.13 O ATOM 377 CB SER A 370 37.955 37.165 61.770 1.00 29.69 C ATOM 378 OG SER A 370 36.954 36.752 60.872 1.00 29.06 O ATOM 379 N SER A 371 37.258 35.858 64.924 1.00 28.82 N ATOM 380 CA SER A 371 36.833 34.589 65.513 1.00 28.07 C ATOM 381 C SER A 371 35.525 34.698 66.298 1.00 27.81 C ATOM 382 O SER A 371 34.994 35.797 66.498 1.00 27.91 O ATOM 383 CB SER A 371 37.951 33.989 66.366 1.00 28.06 C ATOM 384 OG SER A 371 39.005 33.512 65.544 1.00 28.00 O ATOM 385 N ASP A 372 35.016 33.555 66.742 1.00 26.99 N ATOM 386 CA ASP A 372 33.728 33.490 67.413 1.00 26.46 C ATOM 387 C ASP A 372 33.764 33.941 68.885 1.00 26.44 C ATOM 388 O ASP A 372 33.114 33.342 69.742 1.00 26.31 O ATOM 389 CB ASP A 372 33.143 32.080 67.264 1.00 26.30 C ATOM 390 CG ASP A 372 32.797 31.740 65.812 1.00 25.70 C ATOM 391 OD1 ASP A 372 32.637 32.676 65.000 1.00 23.97 O ATOM 392 OD2 ASP A 372 32.680 30.538 65.485 1.00 24.88 O ATOM 393 N TRP A 373 34.518 35.006 69.162 1.00 26.28 N ATOM 394 CA TRP A 373 34.634 35.579 70.514 1.00 26.40 C ATOM 395 C TRP A 373 35.249 36.979 70.455 1.00 26.58 C ATOM 396 O TRP A 373 35.599 37.464 69.373 1.00 26.63 O ATOM 397 CB TRP A 373 35.470 34.681 71.442 1.00 26.12 C ATOM 398 CG TRP A 373 36.812 34.285 70.878 1.00 26.06 C ATOM 399 CD1 TRP A 373 37.965 35.016 70.918 1.00 25.93 C ATOM 400 CD2 TRP A 373 37.135 33.062 70.194 1.00 26.02 C ATOM 401 NE1 TRP A 373 38.988 34.330 70.299 1.00 26.45 N ATOM 402 CE2 TRP A 373 38.508 33.128 69.846 1.00 26.76 C ATOM 403 CE3 TRP A 373 36.401 31.921 69.840 1.00 25.43 C ATOM 404 CZ2 TRP A 373 39.165 32.089 69.160 1.00 26.16 C ATOM 405 CZ3 TRP A 373 37.052 30.887 69.156 1.00 26.22 C ATOM 406 CH2 TRP A 373 38.423 30.982 68.822 1.00 26.10 C ATOM 407 N GLY A 374 35.371 37.622 71.616 1.00 26.49 N ATOM 408 CA GLY A 374 36.062 38.903 71.711 1.00 26.73 C ATOM 409 C GLY A 374 35.142 40.085 71.940 1.00 26.85 C ATOM 410 O GLY A 374 34.050 39.943 72.489 1.00 26.64 O ATOM 411 N ASP A 375 35.608 41.263 71.537 1.00 27.07 N ATOM 412 CA ASP A 375 34.787 42.460 71.569 1.00 27.15 C ATOM 413 C ASP A 375 33.867 42.383 70.361 1.00 27.15 C ATOM 414 O ASP A 375 34.283 42.602 69.221 1.00 27.30 O ATOM 415 CB ASP A 375 35.658 43.720 71.538 1.00 27.22 C ATOM 416 CG ASP A 375 34.857 45.000 71.746 1.00 27.62 C ATOM 417 OD1 ASP A 375 33.613 44.934 71.865 1.00 28.63 O ATOM 418 OD2 ASP A 375 35.477 46.084 71.789 1.00 27.44 O ATOM 419 N ILE A 376 32.622 42.006 70.624 1.00 27.16 N ATOM 420 CA ILE A 376 31.613 41.896 69.592 1.00 26.89 C ATOM 421 C ILE A 376 30.377 42.642 70.057 1.00 26.85 C ATOM 422 O ILE A 376 29.910 42.447 71.177 1.00 27.03 O ATOM 423 CB ILE A 376 31.254 40.427 69.271 1.00 26.88 C ATOM 424 CG1 ILE A 376 32.512 39.608 68.969 1.00 26.64 C ATOM 425 CG2 ILE A 376 30.290 40.365 68.084 1.00 26.87 C ATOM 426 CD1 ILE A 376 32.265 38.120 68.769 1.00 26.87 C ATOM 427 N GLY A 377 29.871 43.517 69.196 1.00 26.82 N ATOM 428 CA GLY A 377 28.616 44.218 69.455 1.00 26.46 C ATOM 429 C GLY A 377 27.549 43.758 68.486 1.00 26.10 C ATOM 430 O GLY A 377 27.861 43.285 67.387 1.00 25.96 O ATOM 431 N MET A 378 26.291 43.867 68.904 1.00 26.01 N ATOM 432 CA MET A 378 25.154 43.602 68.018 1.00 25.87 C ATOM 433 C MET A 378 24.736 44.936 67.420 1.00 25.89 C ATOM 434 O MET A 378 24.327 45.850 68.148 1.00 25.93 O ATOM 435 CB MET A 378 23.982 42.976 68.775 1.00 25.73 C ATOM 436 CG MET A 378 24.317 41.738 69.586 1.00 26.06 C ATOM 437 SD MET A 378 24.606 40.270 68.578 1.00 26.92 S ATOM 438 CE MET A 378 26.378 40.361 68.337 1.00 25.08 C ATOM 439 N VAL A 379 24.867 45.049 66.100 1.00 25.62 N ATOM 440 CA VAL A 379 24.628 46.309 65.400 1.00 25.63 C ATOM 441 C VAL A 379 23.557 46.144 64.333 1.00 25.64 C ATOM 442 O VAL A 379 23.428 45.077 63.735 1.00 25.94 O ATOM 443 CB VAL A 379 25.933 46.860 64.723 1.00 25.51 C ATOM 444 CG1 VAL A 379 26.968 47.233 65.755 1.00 25.29 C ATOM 445 CG2 VAL A 379 26.524 45.848 63.743 1.00 25.59 C ATOM 446 N ILE A 380 22.788 47.197 64.091 1.00 25.68 N ATOM 447 CA ILE A 380 21.940 47.234 62.900 1.00 25.87 C ATOM 448 C ILE A 380 22.167 48.491 62.068 1.00 26.24 C ATOM 449 O ILE A 380 22.762 49.465 62.535 1.00 26.21 O ATOM 450 CB ILE A 380 20.405 47.030 63.195 1.00 25.77 C ATOM 451 CG1 ILE A 380 19.844 48.126 64.101 1.00 24.95 C ATOM 452 CG2 ILE A 380 20.116 45.627 63.740 1.00 25.80 C ATOM 453 CD1 ILE A 380 19.191 49.270 63.342 1.00 25.56 C ATOM 454 N ARG A 381 21.711 48.430 60.822 1.00 26.76 N ATOM 455 CA ARG A 381 21.576 49.593 59.957 1.00 27.12 C ATOM 456 C ARG A 381 20.183 49.553 59.337 1.00 27.37 C ATOM 457 O ARG A 381 19.595 48.479 59.189 1.00 27.09 O ATOM 458 CB ARG A 381 22.640 49.587 58.866 1.00 27.08 C ATOM 459 CG ARG A 381 24.045 49.867 59.369 1.00 27.23 C ATOM 460 CD ARG A 381 25.014 50.059 58.210 1.00 27.34 C ATOM 461 NE ARG A 381 24.865 51.367 57.578 1.00 27.64 N ATOM 462 CZ ARG A 381 25.474 51.743 56.454 1.00 28.85 C ATOM 463 NH1 ARG A 381 26.281 50.905 55.806 1.00 28.43 N ATOM 464 NH2 ARG A 381 25.264 52.964 55.967 1.00 28.40 N ATOM 465 N ARG A 382 19.665 50.729 58.988 1.00 27.77 N ATOM 466 CA ARG A 382 18.313 50.866 58.451 1.00 28.21 C ATOM 467 C ARG A 382 18.303 51.440 57.039 1.00 28.60 C ATOM 468 O ARG A 382 19.079 52.343 56.722 1.00 28.73 O ATOM 469 CB ARG A 382 17.479 51.774 59.353 1.00 28.02 C ATOM 470 CG ARG A 382 17.141 51.194 60.697 1.00 27.54 C ATOM 471 CD ARG A 382 16.434 52.213 61.580 1.00 27.37 C ATOM 472 NE ARG A 382 15.061 52.486 61.147 1.00 27.63 N ATOM 473 CZ ARG A 382 14.679 53.564 60.462 1.00 27.60 C ATOM 474 NH1 ARG A 382 15.562 54.494 60.112 1.00 26.94 N ATOM 475 NH2 ARG A 382 13.407 53.712 60.124 1.00 27.55 N ATOM 476 N SER A 383 17.413 50.924 56.198 1.00 29.07 N ATOM 477 CA SER A 383 17.168 51.525 54.895 1.00 29.40 C ATOM 478 C SER A 383 15.696 51.844 54.722 1.00 29.69 C ATOM 479 O SER A 383 14.834 51.027 55.037 1.00 29.57 O ATOM 480 CB SER A 383 17.627 50.617 53.763 1.00 29.44 C ATOM 481 OG SER A 383 17.447 51.262 52.510 1.00 29.80 O ATOM 482 N GLU A 384 15.423 53.036 54.204 1.00 30.22 N ATOM 483 CA GLU A 384 14.058 53.467 53.937 1.00 30.89 C ATOM 484 C GLU A 384 13.771 53.506 52.439 1.00 30.86 C ATOM 485 O GLU A 384 12.621 53.431 52.023 1.00 31.24 O ATOM 486 CB GLU A 384 13.781 54.821 54.597 1.00 30.80 C ATOM 487 CG GLU A 384 14.126 54.850 56.088 1.00 31.30 C ATOM 488 CD GLU A 384 13.552 56.051 56.820 1.00 31.86 C ATOM 489 OE1 GLU A 384 13.309 57.095 56.174 1.00 33.40 O ATOM 490 OE2 GLU A 384 13.346 55.950 58.052 1.00 33.27 O ATOM 491 N ASP A 385 14.818 53.606 51.628 1.00 31.13 N ATOM 492 CA ASP A 385 14.658 53.556 50.172 1.00 31.34 C ATOM 493 C ASP A 385 14.805 52.123 49.664 1.00 31.26 C ATOM 494 O ASP A 385 15.277 51.879 48.550 1.00 31.16 O ATOM 495 CB ASP A 385 15.618 54.522 49.460 1.00 31.18 C ATOM 496 CG ASP A 385 17.071 54.332 49.874 1.00 32.28 C ATOM 497 OD1 ASP A 385 17.382 53.392 50.644 1.00 33.22 O ATOM 498 OD2 ASP A 385 17.912 55.135 49.414 1.00 32.58 O ATOM 499 N ASN A 386 14.383 51.185 50.507 1.00 31.44 N ATOM 500 CA ASN A 386 14.347 49.765 50.177 1.00 31.44 C ATOM 501 C ASN A 386 15.694 49.228 49.673 1.00 31.55 C ATOM 502 O ASN A 386 15.761 48.587 48.631 1.00 31.54 O ATOM 503 CB ASN A 386 13.220 49.488 49.172 1.00 31.30 C ATOM 504 CG ASN A 386 12.712 48.063 49.242 1.00 31.04 C ATOM 505 OD1 ASN A 386 12.336 47.576 50.309 1.00 31.42 O ATOM 506 ND2 ASN A 386 12.687 47.390 48.102 1.00 29.95 N ATOM 507 N GLY A 387 16.765 49.519 50.408 1.00 31.77 N ATOM 508 CA GLY A 387 18.075 48.931 50.132 1.00 32.05 C ATOM 509 C GLY A 387 19.057 49.724 49.286 1.00 32.33 C ATOM 510 O GLY A 387 20.197 49.292 49.098 1.00 32.56 O ATOM 511 N LYS A 388 18.636 50.879 48.776 1.00 32.47 N ATOM 512 CA LYS A 388 19.522 51.715 47.961 1.00 32.65 C ATOM 513 C LYS A 388 20.579 52.404 48.822 1.00 32.41 C ATOM 514 O LYS A 388 21.776 52.251 48.577 1.00 32.31 O ATOM 515 CB LYS A 388 18.729 52.744 47.148 1.00 32.87 C ATOM 516 CG LYS A 388 17.852 52.130 46.071 1.00 34.42 C ATOM 517 CD LYS A 388 16.941 53.165 45.423 1.00 36.60 C ATOM 518 CE LYS A 388 16.009 52.500 44.416 1.00 37.43 C ATOM 519 NZ LYS A 388 15.032 53.461 43.836 1.00 38.43 N ATOM 520 N THR A 389 20.122 53.164 49.818 1.00 32.11 N ATOM 521 CA THR A 389 21.004 53.819 50.785 1.00 31.69 C ATOM 522 C THR A 389 20.696 53.306 52.186 1.00 31.24 C ATOM 523 O THR A 389 19.598 52.811 52.448 1.00 31.38 O ATOM 524 CB THR A 389 20.877 55.366 50.759 1.00 31.91 C ATOM 525 OG1 THR A 389 19.557 55.757 51.162 1.00 31.95 O ATOM 526 CG2 THR A 389 21.183 55.926 49.368 1.00 31.62 C ATOM 527 N TRP A 390 21.670 53.418 53.082 1.00 30.59 N ATOM 528 CA TRP A 390 21.539 52.867 54.419 1.00 30.15 C ATOM 529 C TRP A 390 22.022 53.888 55.431 1.00 30.11 C ATOM 530 O TRP A 390 23.006 54.587 55.182 1.00 29.99 O ATOM 531 CB TRP A 390 22.319 51.550 54.542 1.00 29.91 C ATOM 532 CG TRP A 390 21.814 50.459 53.621 1.00 29.72 C ATOM 533 CD1 TRP A 390 22.061 50.337 52.281 1.00 29.74 C ATOM 534 CD2 TRP A 390 20.975 49.346 53.974 1.00 29.99 C ATOM 535 NE1 TRP A 390 21.425 49.224 51.776 1.00 30.06 N ATOM 536 CE2 TRP A 390 20.753 48.597 52.793 1.00 29.99 C ATOM 537 CE3 TRP A 390 20.393 48.905 55.175 1.00 29.73 C ATOM 538 CZ2 TRP A 390 19.976 47.430 52.777 1.00 29.68 C ATOM 539 CZ3 TRP A 390 19.616 47.749 55.156 1.00 29.62 C ATOM 540 CH2 TRP A 390 19.419 47.024 53.964 1.00 29.94 C ATOM 541 N GLY A 391 21.322 53.969 56.563 1.00 29.91 N ATOM 542 CA GLY A 391 21.615 54.951 57.608 1.00 29.89 C ATOM 543 C GLY A 391 22.840 54.619 58.442 1.00 29.93 C ATOM 544 O GLY A 391 23.709 53.862 58.009 1.00 29.81 O ATOM 545 N ASP A 392 22.908 55.195 59.641 1.00 29.99 N ATOM 546 CA ASP A 392 24.019 54.959 60.563 1.00 30.27 C ATOM 547 C ASP A 392 23.923 53.598 61.241 1.00 30.61 C ATOM 548 O ASP A 392 22.838 53.034 61.376 1.00 30.75 O ATOM 549 CB ASP A 392 24.068 56.051 61.640 1.00 30.30 C ATOM 550 CG ASP A 392 24.459 57.414 61.085 1.00 30.07 C ATOM 551 OD1 ASP A 392 25.231 57.472 60.108 1.00 29.41 O ATOM 552 OD2 ASP A 392 23.994 58.435 61.631 1.00 30.16 O ATOM 553 N ARG A 393 25.067 53.078 61.672 1.00 30.83 N ATOM 554 CA ARG A 393 25.100 51.872 62.485 1.00 31.07 C ATOM 555 C ARG A 393 24.545 52.195 63.869 1.00 30.97 C ATOM 556 O ARG A 393 25.058 53.078 64.564 1.00 31.12 O ATOM 557 CB ARG A 393 26.529 51.322 62.592 1.00 30.93 C ATOM 558 CG ARG A 393 27.152 50.940 61.259 1.00 31.32 C ATOM 559 CD ARG A 393 28.628 50.574 61.387 1.00 31.99 C ATOM 560 NE ARG A 393 29.465 51.745 61.645 1.00 34.32 N ATOM 561 CZ ARG A 393 30.217 51.911 62.728 1.00 35.30 C ATOM 562 NH1 ARG A 393 30.268 50.974 63.663 1.00 36.31 N ATOM 563 NH2 ARG A 393 30.933 53.016 62.874 1.00 36.01 N ATOM 564 N VAL A 394 23.478 51.493 64.248 1.00 30.78 N ATOM 565 CA VAL A 394 22.910 51.594 65.589 1.00 30.37 C ATOM 566 C VAL A 394 23.353 50.365 66.379 1.00 30.14 C ATOM 567 O VAL A 394 23.014 49.242 66.030 1.00 30.25 O ATOM 568 CB VAL A 394 21.350 51.697 65.559 1.00 30.44 C ATOM 569 CG1 VAL A 394 20.762 51.531 66.950 1.00 30.63 C ATOM 570 CG2 VAL A 394 20.901 53.026 64.964 1.00 29.99 C ATOM 571 N THR A 395 24.129 50.589 67.432 1.00 30.03 N ATOM 572 CA THR A 395 24.567 49.511 68.308 1.00 29.72 C ATOM 573 C THR A 395 23.466 49.164 69.305 1.00 29.69 C ATOM 574 O THR A 395 23.027 50.012 70.089 1.00 29.73 O ATOM 575 CB THR A 395 25.858 49.885 69.065 1.00 29.76 C ATOM 576 OG1 THR A 395 26.867 50.265 68.122 1.00 29.58 O ATOM 577 CG2 THR A 395 26.365 48.696 69.894 1.00 29.36 C ATOM 578 N ILE A 396 23.015 47.915 69.260 1.00 29.40 N ATOM 579 CA ILE A 396 21.982 47.445 70.166 1.00 29.08 C ATOM 580 C ILE A 396 22.631 47.128 71.512 1.00 28.98 C ATOM 581 O ILE A 396 22.198 47.618 72.555 1.00 28.73 O ATOM 582 CB ILE A 396 21.245 46.199 69.604 1.00 29.20 C ATOM 583 CG1 ILE A 396 20.733 46.460 68.177 1.00 29.44 C ATOM 584 CG2 ILE A 396 20.109 45.782 70.537 1.00 28.85 C ATOM 585 CD1 ILE A 396 20.025 45.270 67.519 1.00 28.92 C ATOM 586 N THR A 397 23.676 46.307 71.474 1.00 29.01 N ATOM 587 CA THR A 397 24.390 45.905 72.678 1.00 29.06 C ATOM 588 C THR A 397 25.857 45.710 72.365 1.00 29.29 C ATOM 589 O THR A 397 26.204 45.037 71.398 1.00 29.42 O ATOM 590 CB THR A 397 23.844 44.573 73.277 1.00 29.04 C ATOM 591 OG1 THR A 397 22.411 44.585 73.292 1.00 28.28 O ATOM 592 CG2 THR A 397 24.366 44.367 74.694 1.00 28.30 C ATOM 593 N ASN A 398 26.706 46.332 73.174 1.00 29.71 N ATOM 594 CA ASN A 398 28.119 45.987 73.234 1.00 30.16 C ATOM 595 C ASN A 398 28.574 46.089 74.676 1.00 30.41 C ATOM 596 O ASN A 398 28.649 47.182 75.229 1.00 30.44 O ATOM 597 CB ASN A 398 28.968 46.892 72.336 1.00 29.97 C ATOM 598 CG ASN A 398 30.362 46.316 72.061 1.00 30.47 C ATOM 599 OD1 ASN A 398 30.812 45.359 72.706 1.00 29.87 O ATOM 600 ND2 ASN A 398 31.052 46.908 71.094 1.00 30.90 N ATOM 601 N LEU A 399 28.846 44.941 75.285 1.00 31.04 N ATOM 602 CA LEU A 399 29.321 44.891 76.664 1.00 31.74 C ATOM 603 C LEU A 399 30.771 45.348 76.715 1.00 32.40 C ATOM 604 O LEU A 399 31.552 45.038 75.815 1.00 32.19 O ATOM 605 CB LEU A 399 29.171 43.476 77.233 1.00 31.69 C ATOM 606 CG LEU A 399 27.756 42.873 77.184 1.00 31.25 C ATOM 607 CD1 LEU A 399 27.756 41.393 77.562 1.00 29.67 C ATOM 608 CD2 LEU A 399 26.785 43.668 78.056 1.00 29.66 C ATOM 609 N ARG A 400 31.123 46.101 77.754 1.00 33.41 N ATOM 610 CA ARG A 400 32.475 46.651 77.858 1.00 34.49 C ATOM 611 C ARG A 400 33.505 45.566 78.147 1.00 35.22 C ATOM 612 O ARG A 400 33.221 44.611 78.874 1.00 35.31 O ATOM 613 CB ARG A 400 32.545 47.772 78.895 1.00 34.35 C ATOM 614 CG ARG A 400 32.412 47.330 80.338 1.00 34.53 C ATOM 615 CD ARG A 400 32.211 48.542 81.231 1.00 34.00 C ATOM 616 NE ARG A 400 32.393 48.217 82.639 1.00 33.98 N ATOM 617 CZ ARG A 400 33.568 48.196 83.260 1.00 33.20 C ATOM 618 NH1 ARG A 400 34.683 48.475 82.598 1.00 32.29 N ATOM 619 NH2 ARG A 400 33.624 47.888 84.547 1.00 32.93 N ATOM 620 N ASP A 401 34.690 45.715 77.560 1.00 36.17 N ATOM 621 CA ASP A 401 35.758 44.734 77.734 1.00 37.21 C ATOM 622 C ASP A 401 36.334 44.773 79.146 1.00 37.58 C ATOM 623 O ASP A 401 36.162 45.756 79.868 1.00 37.55 O ATOM 624 CB ASP A 401 36.867 44.931 76.688 1.00 37.32 C ATOM 625 CG ASP A 401 37.592 46.265 76.826 1.00 38.42 C ATOM 626 OD1 ASP A 401 37.111 47.164 77.553 1.00 39.60 O ATOM 627 OD2 ASP A 401 38.654 46.421 76.188 1.00 40.20 O ATOM 628 N ASN A 402 36.990 43.683 79.534 1.00 38.33 N ATOM 629 CA ASN A 402 37.743 43.634 80.773 1.00 39.07 C ATOM 630 C ASN A 402 39.088 44.332 80.572 1.00 39.53 C ATOM 631 O ASN A 402 39.987 43.765 79.940 1.00 39.49 O ATOM 632 CB ASN A 402 37.938 42.185 81.222 1.00 39.26 C ATOM 633 CG ASN A 402 38.651 42.071 82.560 1.00 39.57 C ATOM 634 OD1 ASN A 402 39.394 42.967 82.968 1.00 40.75 O ATOM 635 ND2 ASN A 402 38.433 40.960 83.246 1.00 39.63 N ATOM 636 N PRO A 403 39.238 45.552 81.127 1.00 39.98 N ATOM 637 CA PRO A 403 40.410 46.394 80.866 1.00 40.36 C ATOM 638 C PRO A 403 41.695 45.803 81.439 1.00 40.65 C ATOM 639 O PRO A 403 42.784 46.239 81.071 1.00 40.74 O ATOM 640 CB PRO A 403 40.076 47.707 81.591 1.00 40.33 C ATOM 641 CG PRO A 403 38.597 47.649 81.865 1.00 40.40 C ATOM 642 CD PRO A 403 38.314 46.200 82.075 1.00 40.12 C ATOM 643 N LYS A 404 41.557 44.816 82.323 1.00 40.93 N ATOM 644 CA LYS A 404 42.700 44.216 83.008 1.00 41.05 C ATOM 645 C LYS A 404 42.965 42.786 82.547 1.00 40.93 C ATOM 646 O LYS A 404 43.735 42.054 83.177 1.00 40.95 O ATOM 647 CB LYS A 404 42.515 44.285 84.532 1.00 41.18 C ATOM 648 CG LYS A 404 42.646 45.697 85.113 1.00 41.88 C ATOM 649 CD LYS A 404 44.114 46.074 85.350 1.00 43.64 C ATOM 650 CE LYS A 404 44.364 47.574 85.165 1.00 44.41 C ATOM 651 NZ LYS A 404 43.522 48.428 86.052 1.00 45.12 N ATOM 652 N ALA A 405 42.335 42.398 81.440 1.00 40.71 N ATOM 653 CA ALA A 405 42.599 41.100 80.828 1.00 40.53 C ATOM 654 C ALA A 405 43.935 41.142 80.093 1.00 40.40 C ATOM 655 O ALA A 405 44.244 42.124 79.405 1.00 40.42 O ATOM 656 CB ALA A 405 41.478 40.719 79.877 1.00 40.55 C ATOM 657 N SER A 406 44.722 40.081 80.246 1.00 40.10 N ATOM 658 CA SER A 406 46.044 39.993 79.619 1.00 39.82 C ATOM 659 C SER A 406 45.986 39.793 78.096 1.00 39.72 C ATOM 660 O SER A 406 46.813 40.347 77.366 1.00 39.83 O ATOM 661 CB SER A 406 46.879 38.893 80.276 1.00 39.85 C ATOM 662 OG SER A 406 46.173 37.668 80.309 1.00 39.28 O ATOM 663 N ASP A 407 45.017 39.002 77.630 1.00 39.22 N ATOM 664 CA ASP A 407 44.792 38.790 76.196 1.00 38.46 C ATOM 665 C ASP A 407 43.480 39.458 75.784 1.00 38.10 C ATOM 666 O ASP A 407 42.400 38.931 76.063 1.00 38.19 O ATOM 667 CB ASP A 407 44.779 37.287 75.867 1.00 38.37 C ATOM 668 CG ASP A 407 44.613 36.993 74.368 1.00 37.98 C ATOM 669 OD1 ASP A 407 44.326 37.920 73.571 1.00 37.46 O ATOM 670 OD2 ASP A 407 44.762 35.809 73.991 1.00 37.17 O ATOM 671 N PRO A 408 43.569 40.614 75.096 1.00 37.68 N ATOM 672 CA PRO A 408 42.379 41.430 74.851 1.00 37.23 C ATOM 673 C PRO A 408 41.490 40.870 73.744 1.00 36.84 C ATOM 674 O PRO A 408 40.331 41.266 73.633 1.00 37.06 O ATOM 675 CB PRO A 408 42.954 42.796 74.435 1.00 37.30 C ATOM 676 CG PRO A 408 44.462 42.655 74.469 1.00 37.42 C ATOM 677 CD PRO A 408 44.770 41.199 74.473 1.00 37.68 C ATOM 678 N SER A 409 42.030 39.960 72.935 1.00 36.22 N ATOM 679 CA SER A 409 41.273 39.328 71.862 1.00 35.40 C ATOM 680 C SER A 409 40.288 38.308 72.427 1.00 34.95 C ATOM 681 O SER A 409 39.351 37.893 71.741 1.00 34.89 O ATOM 682 CB SER A 409 42.215 38.668 70.846 1.00 35.37 C ATOM 683 OG SER A 409 42.730 37.442 71.329 1.00 35.18 O ATOM 684 N ILE A 410 40.517 37.905 73.676 1.00 34.22 N ATOM 685 CA ILE A 410 39.608 37.017 74.403 1.00 33.59 C ATOM 686 C ILE A 410 39.131 37.661 75.709 1.00 33.24 C ATOM 687 O ILE A 410 38.567 36.985 76.575 1.00 33.12 O ATOM 688 CB ILE A 410 40.252 35.620 74.694 1.00 33.66 C ATOM 689 CG1 ILE A 410 41.502 35.753 75.576 1.00 33.32 C ATOM 690 CG2 ILE A 410 40.565 34.878 73.385 1.00 33.85 C ATOM 691 CD1 ILE A 410 41.953 34.459 76.234 1.00 33.17 C ATOM 692 N GLY A 411 39.345 38.973 75.829 1.00 32.68 N ATOM 693 CA GLY A 411 39.169 39.684 77.096 1.00 31.89 C ATOM 694 C GLY A 411 37.936 40.555 77.206 1.00 31.32 C ATOM 695 O GLY A 411 37.949 41.594 77.872 1.00 31.07 O ATOM 696 N SER A 412 36.861 40.122 76.558 1.00 30.95 N ATOM 697 CA SER A 412 35.594 40.840 76.604 1.00 30.25 C ATOM 698 C SER A 412 34.445 39.849 76.779 1.00 29.72 C ATOM 699 O SER A 412 34.501 38.740 76.241 1.00 29.82 O ATOM 700 CB SER A 412 35.401 41.674 75.332 1.00 30.16 C ATOM 701 OG SER A 412 34.274 42.530 75.440 1.00 30.49 O ATOM 702 N PRO A 413 33.421 40.226 77.572 1.00 29.10 N ATOM 703 CA PRO A 413 32.151 39.500 77.543 1.00 28.57 C ATOM 704 C PRO A 413 31.594 39.541 76.126 1.00 27.90 C ATOM 705 O PRO A 413 31.804 40.520 75.414 1.00 27.64 O ATOM 706 CB PRO A 413 31.262 40.304 78.496 1.00 28.54 C ATOM 707 CG PRO A 413 32.214 41.008 79.400 1.00 28.65 C ATOM 708 CD PRO A 413 33.408 41.322 78.559 1.00 28.96 C ATOM 709 N VAL A 414 30.899 38.484 75.720 1.00 27.49 N ATOM 710 CA VAL A 414 30.558 38.296 74.311 1.00 26.85 C ATOM 711 C VAL A 414 29.055 38.322 74.042 1.00 26.29 C ATOM 712 O VAL A 414 28.283 37.676 74.743 1.00 26.49 O ATOM 713 CB VAL A 414 31.149 36.963 73.757 1.00 26.98 C ATOM 714 CG1 VAL A 414 30.959 36.872 72.246 1.00 26.71 C ATOM 715 CG2 VAL A 414 32.629 36.822 74.118 1.00 26.56 C ATOM 716 N ASN A 415 28.660 39.098 73.036 1.00 25.59 N ATOM 717 CA ASN A 415 27.382 38.916 72.351 1.00 24.74 C ATOM 718 C ASN A 415 27.679 38.409 70.941 1.00 24.22 C ATOM 719 O ASN A 415 28.611 38.886 70.301 1.00 23.92 O ATOM 720 CB ASN A 415 26.597 40.228 72.299 1.00 24.63 C ATOM 721 CG ASN A 415 26.042 40.639 73.658 1.00 24.21 C ATOM 722 OD1 ASN A 415 26.264 41.762 74.112 1.00 23.56 O ATOM 723 ND2 ASN A 415 25.308 39.734 74.308 1.00 22.62 N ATOM 724 N ILE A 416 26.903 37.438 70.462 1.00 23.84 N ATOM 725 CA ILE A 416 27.221 36.742 69.207 1.00 22.95 C ATOM 726 C ILE A 416 25.994 36.065 68.589 1.00 23.06 C ATOM 727 O ILE A 416 25.214 35.426 69.303 1.00 23.14 O ATOM 728 CB ILE A 416 28.384 35.719 69.421 1.00 22.83 C ATOM 729 CG1 ILE A 416 28.725 34.966 68.128 1.00 22.48 C ATOM 730 CG2 ILE A 416 28.071 34.767 70.578 1.00 22.00 C ATOM 731 CD1 ILE A 416 30.097 34.308 68.133 1.00 22.63 C ATOM 732 N ASP A 417 25.836 36.209 67.267 1.00 22.91 N ATOM 733 CA ASP A 417 24.730 35.603 66.498 1.00 22.74 C ATOM 734 C ASP A 417 23.358 36.188 66.862 1.00 22.69 C ATOM 735 O ASP A 417 22.872 35.973 67.965 1.00 22.74 O ATOM 736 CB ASP A 417 24.705 34.071 66.681 1.00 22.68 C ATOM 737 CG ASP A 417 25.959 33.379 66.140 1.00 22.73 C ATOM 738 OD1 ASP A 417 26.776 34.034 65.463 1.00 22.83 O ATOM 739 OD2 ASP A 417 26.117 32.165 66.380 1.00 21.41 O ATOM 740 N MET A 418 22.724 36.917 65.949 1.00 22.62 N ATOM 741 CA MET A 418 21.377 37.435 66.238 1.00 22.84 C ATOM 742 C MET A 418 20.276 36.870 65.339 1.00 22.23 C ATOM 743 O MET A 418 20.518 36.501 64.196 1.00 22.31 O ATOM 744 CB MET A 418 21.336 38.974 66.243 1.00 22.47 C ATOM 745 CG MET A 418 21.133 39.628 64.890 1.00 23.35 C ATOM 746 SD MET A 418 21.324 41.425 64.918 1.00 24.58 S ATOM 747 CE MET A 418 19.665 41.959 65.158 1.00 25.04 C ATOM 748 N VAL A 419 19.071 36.790 65.893 1.00 21.95 N ATOM 749 CA VAL A 419 17.866 36.540 65.120 1.00 21.49 C ATOM 750 C VAL A 419 16.988 37.791 65.198 1.00 21.50 C ATOM 751 O VAL A 419 16.809 38.365 66.274 1.00 21.03 O ATOM 752 CB VAL A 419 17.088 35.287 65.625 1.00 21.51 C ATOM 753 CG1 VAL A 419 15.688 35.212 64.997 1.00 20.57 C ATOM 754 CG2 VAL A 419 17.862 34.027 65.321 1.00 20.60 C ATOM 755 N LEU A 420 16.473 38.219 64.047 1.00 21.40 N ATOM 756 CA LEU A 420 15.499 39.300 63.986 1.00 21.44 C ATOM 757 C LEU A 420 14.096 38.780 63.683 1.00 21.50 C ATOM 758 O LEU A 420 13.940 37.803 62.952 1.00 21.66 O ATOM 759 CB LEU A 420 15.908 40.329 62.932 1.00 21.44 C ATOM 760 CG LEU A 420 17.082 41.224 63.311 1.00 20.77 C ATOM 761 CD1 LEU A 420 17.558 42.058 62.119 1.00 20.39 C ATOM 762 CD2 LEU A 420 16.676 42.103 64.475 1.00 20.58 C ATOM 763 N VAL A 421 13.088 39.433 64.262 1.00 21.66 N ATOM 764 CA VAL A 421 11.681 39.183 63.929 1.00 21.69 C ATOM 765 C VAL A 421 10.826 40.381 64.343 1.00 22.17 C ATOM 766 O VAL A 421 11.125 41.037 65.342 1.00 22.32 O ATOM 767 CB VAL A 421 11.150 37.851 64.557 1.00 21.68 C ATOM 768 CG1 VAL A 421 11.107 37.917 66.094 1.00 20.68 C ATOM 769 CG2 VAL A 421 9.786 37.475 63.970 1.00 21.48 C ATOM 770 N GLN A 422 9.791 40.687 63.563 1.00 22.68 N ATOM 771 CA GLN A 422 8.788 41.666 63.985 1.00 23.56 C ATOM 772 C GLN A 422 7.463 40.992 64.291 1.00 24.26 C ATOM 773 O GLN A 422 6.983 40.166 63.516 1.00 24.71 O ATOM 774 CB GLN A 422 8.572 42.779 62.948 1.00 23.41 C ATOM 775 CG GLN A 422 7.658 43.902 63.472 1.00 23.31 C ATOM 776 CD GLN A 422 7.566 45.110 62.561 1.00 23.70 C ATOM 777 OE1 GLN A 422 7.415 44.985 61.348 1.00 25.43 O ATOM 778 NE2 GLN A 422 7.646 46.294 63.150 1.00 23.70 N ATOM 779 N ASP A 423 6.876 41.343 65.430 1.00 25.21 N ATOM 780 CA ASP A 423 5.506 40.944 65.730 1.00 26.08 C ATOM 781 C ASP A 423 4.573 41.827 64.896 1.00 26.61 C ATOM 782 O ASP A 423 4.559 43.048 65.079 1.00 26.62 O ATOM 783 CB ASP A 423 5.216 41.092 67.229 1.00 26.03 C ATOM 784 CG ASP A 423 3.847 40.558 67.619 1.00 26.26 C ATOM 785 OD1 ASP A 423 2.824 41.145 67.199 1.00 27.37 O ATOM 786 OD2 ASP A 423 3.794 39.557 68.363 1.00 25.65 O ATOM 787 N PRO A 424 3.791 41.215 63.979 1.00 27.09 N ATOM 788 CA PRO A 424 2.919 41.993 63.084 1.00 27.35 C ATOM 789 C PRO A 424 1.764 42.710 63.802 1.00 27.68 C ATOM 790 O PRO A 424 1.277 43.723 63.299 1.00 27.77 O ATOM 791 CB PRO A 424 2.390 40.944 62.093 1.00 27.13 C ATOM 792 CG PRO A 424 2.511 39.654 62.788 1.00 26.70 C ATOM 793 CD PRO A 424 3.670 39.764 63.740 1.00 26.91 C ATOM 794 N GLU A 425 1.342 42.206 64.962 1.00 28.22 N ATOM 795 CA GLU A 425 0.293 42.879 65.745 1.00 28.91 C ATOM 796 C GLU A 425 0.847 44.098 66.467 1.00 28.65 C ATOM 797 O GLU A 425 0.370 45.210 66.266 1.00 28.92 O ATOM 798 CB GLU A 425 −0.368 41.939 66.765 1.00 29.19 C ATOM 799 CG GLU A 425 −1.151 40.776 66.173 1.00 31.37 C ATOM 800 CD GLU A 425 −2.114 41.202 65.078 1.00 33.90 C ATOM 801 OE1 GLU A 425 −2.989 42.062 65.350 1.00 35.91 O ATOM 802 OE2 GLU A 425 −1.993 40.670 63.950 1.00 33.42 O ATOM 803 N THR A 426 1.862 43.884 67.297 1.00 28.46 N ATOM 804 CA THR A 426 2.388 44.948 68.154 1.00 28.45 C ATOM 805 C THR A 426 3.330 45.900 67.425 1.00 27.97 C ATOM 806 O THR A 426 3.564 47.008 67.889 1.00 27.99 O ATOM 807 CB THR A 426 3.102 44.369 69.388 1.00 28.38 C ATOM 808 OG1 THR A 426 2.326 43.291 69.917 1.00 28.44 O ATOM 809 CG2 THR A 426 3.253 45.436 70.472 1.00 29.45 C ATOM 810 N LYS A 427 3.851 45.461 66.280 1.00 27.76 N ATOM 811 CA LYS A 427 4.873 46.191 65.511 1.00 27.33 C ATOM 812 C LYS A 427 6.201 46.256 66.274 1.00 26.88 C ATOM 813 O LYS A 427 7.060 47.106 65.990 1.00 26.96 O ATOM 814 CB LYS A 427 4.399 47.600 65.088 1.00 27.67 C ATOM 815 CG LYS A 427 2.959 47.695 64.538 1.00 28.12 C ATOM 816 CD LYS A 427 2.722 46.795 63.320 1.00 28.71 C ATOM 817 CE LYS A 427 1.463 47.191 62.540 1.00 29.13 C ATOM 818 NZ LYS A 427 0.209 47.155 63.350 1.00 29.68 N ATOM 819 N ARG A 428 6.366 45.356 67.242 1.00 25.78 N ATOM 820 CA ARG A 428 7.591 45.300 68.019 1.00 24.94 C ATOM 821 C ARG A 428 8.640 44.432 67.323 1.00 24.48 C ATOM 822 O ARG A 428 8.339 43.338 66.849 1.00 24.34 O ATOM 823 CB ARG A 428 7.320 44.803 69.437 1.00 24.89 C ATOM 824 CG ARG A 428 8.563 44.740 70.312 1.00 24.28 C ATOM 825 CD ARG A 428 8.206 44.533 71.765 1.00 24.09 C ATOM 826 NE ARG A 428 7.825 45.783 72.410 1.00 23.84 N ATOM 827 CZ ARG A 428 7.575 45.910 73.707 1.00 24.39 C ATOM 828 NH1 ARG A 428 7.657 44.854 74.510 1.00 24.65 N ATOM 829 NH2 ARG A 428 7.243 47.096 74.201 1.00 24.36 N ATOM 830 N ILE A 429 9.866 44.944 67.268 1.00 23.80 N ATOM 831 CA ILE A 429 10.972 44.250 66.633 1.00 23.40 C ATOM 832 C ILE A 429 11.899 43.669 67.689 1.00 23.09 C ATOM 833 O ILE A 429 12.382 44.379 68.572 1.00 22.96 O ATOM 834 CB ILE A 429 11.755 45.181 65.667 1.00 23.39 C ATOM 835 CG1 ILE A 429 10.875 45.555 64.468 1.00 23.36 C ATOM 836 CG2 ILE A 429 13.033 44.506 65.187 1.00 22.89 C ATOM 837 CD1 ILE A 429 11.206 46.894 63.845 1.00 23.02 C ATOM 838 N PHE A 430 12.138 42.368 67.582 1.00 22.75 N ATOM 839 CA PHE A 430 12.982 41.655 68.523 1.00 22.29 C ATOM 840 C PHE A 430 14.305 41.279 67.891 1.00 22.18 C ATOM 841 O PHE A 430 14.356 40.834 66.743 1.00 22.04 O ATOM 842 CB PHE A 430 12.289 40.380 69.002 1.00 22.18 C ATOM 843 CG PHE A 430 10.974 40.621 69.670 1.00 22.06 C ATOM 844 CD1 PHE A 430 10.910 40.861 71.038 1.00 22.00 C ATOM 845 CD2 PHE A 430 9.796 40.599 68.935 1.00 21.34 C ATOM 846 CE1 PHE A 430 9.683 41.088 71.668 1.00 22.14 C ATOM 847 CE2 PHE A 430 8.569 40.823 69.554 1.00 22.24 C ATOM 848 CZ PHE A 430 8.513 41.067 70.926 1.00 21.79 C ATOM 849 N SER A 431 15.374 41.466 68.654 1.00 21.99 N ATOM 850 CA SER A 431 16.661 40.883 68.325 1.00 21.70 C ATOM 851 C SER A 431 17.085 39.958 69.462 1.00 21.43 C ATOM 852 O SER A 431 17.281 40.393 70.591 1.00 21.70 O ATOM 853 CB SER A 431 17.705 41.970 68.092 1.00 21.69 C ATOM 854 OG SER A 431 19.001 41.404 67.999 1.00 21.91 O ATOM 855 N ILE A 432 17.204 38.677 69.156 1.00 21.28 N ATOM 856 CA ILE A 432 17.612 37.680 70.139 1.00 21.08 C ATOM 857 C ILE A 432 18.994 37.153 69.760 1.00 20.93 C ATOM 858 O ILE A 432 19.267 36.880 68.589 1.00 20.68 O ATOM 859 CB ILE A 432 16.553 36.555 70.273 1.00 21.11 C ATOM 860 CG1 ILE A 432 15.202 37.178 70.651 1.00 21.17 C ATOM 861 CG2 ILE A 432 16.988 35.509 71.306 1.00 20.95 C ATOM 862 CD1 ILE A 432 14.020 36.256 70.594 1.00 21.89 C ATOM 863 N TYR A 433 19.871 37.057 70.753 1.00 20.88 N ATOM 864 CA TYR A 433 21.285 36.771 70.518 1.00 20.89 C ATOM 865 C TYR A 433 21.920 36.111 71.727 1.00 20.88 C ATOM 866 O TYR A 433 21.401 36.201 72.838 1.00 20.75 O ATOM 867 CB TYR A 433 22.041 38.055 70.155 1.00 21.09 C ATOM 868 CG TYR A 433 21.738 39.214 71.072 1.00 21.23 C ATOM 869 CD1 TYR A 433 20.721 40.117 70.771 1.00 21.42 C ATOM 870 CD2 TYR A 433 22.459 39.403 72.249 1.00 21.70 C ATOM 871 CE1 TYR A 433 20.425 41.180 71.620 1.00 21.58 C ATOM 872 CE2 TYR A 433 22.169 40.465 73.106 1.00 22.32 C ATOM 873 CZ TYR A 433 21.149 41.343 72.783 1.00 21.42 C ATOM 874 OH TYR A 433 20.858 42.387 73.624 1.00 22.09 O ATOM 875 N ASP A 434 23.046 35.446 71.500 1.00 21.07 N ATOM 876 CA ASP A 434 23.740 34.712 72.549 1.00 21.21 C ATOM 877 C ASP A 434 24.471 35.661 73.489 1.00 21.46 C ATOM 878 O ASP A 434 24.738 36.807 73.142 1.00 21.64 O ATOM 879 CB ASP A 434 24.745 33.730 71.940 1.00 21.08 C ATOM 880 CG ASP A 434 24.112 32.765 70.964 1.00 20.98 C ATOM 881 OD1 ASP A 434 22.874 32.783 70.816 1.00 20.98 O ATOM 882 OD2 ASP A 434 24.857 31.979 70.340 1.00 21.05 O ATOM 883 N MET A 435 24.791 35.168 74.678 1.00 21.97 N ATOM 884 CA MET A 435 25.652 35.883 75.606 1.00 22.48 C ATOM 885 C MET A 435 26.574 34.912 76.352 1.00 23.01 C ATOM 886 O MET A 435 26.131 33.881 76.874 1.00 22.98 O ATOM 887 CB MET A 435 24.829 36.738 76.580 1.00 22.40 C ATOM 888 CG MET A 435 25.663 37.680 77.450 1.00 22.17 C ATOM 889 SD MET A 435 26.263 36.904 78.973 1.00 22.48 S ATOM 890 CE MET A 435 27.561 38.050 79.457 1.00 22.12 C ATOM 891 N PHE A 436 27.861 35.246 76.359 1.00 23.51 N ATOM 892 CA PHE A 436 28.872 34.555 77.162 1.00 24.26 C ATOM 893 C PHE A 436 29.616 35.626 77.939 1.00 24.65 C ATOM 894 O PHE A 436 29.858 36.712 77.405 1.00 25.02 O ATOM 895 CB PHE A 436 29.901 33.830 76.280 1.00 24.06 C ATOM 896 CG PHE A 436 29.343 32.688 75.485 1.00 24.12 C ATOM 897 CD1 PHE A 436 29.376 31.390 75.993 1.00 23.57 C ATOM 898 CD2 PHE A 436 28.815 32.899 74.209 1.00 23.69 C ATOM 899 CE1 PHE A 436 28.870 30.322 75.255 1.00 23.42 C ATOM 900 CE2 PHE A 436 28.310 31.833 73.462 1.00 23.61 C ATOM 901 CZ PHE A 436 28.339 30.540 73.989 1.00 23.28 C ATOM 902 N PRO A 437 29.984 35.337 79.200 1.00 25.06 N ATOM 903 CA PRO A 437 30.945 36.214 79.868 1.00 25.30 C ATOM 904 C PRO A 437 32.326 36.107 79.213 1.00 25.67 C ATOM 905 O PRO A 437 32.504 35.321 78.271 1.00 25.50 O ATOM 906 CB PRO A 437 30.971 35.678 81.305 1.00 25.32 C ATOM 907 CG PRO A 437 30.510 34.267 81.209 1.00 25.01 C ATOM 908 CD PRO A 437 29.527 34.238 80.074 1.00 25.10 C ATOM 909 N GLU A 438 33.280 36.899 79.703 1.00 26.34 N ATOM 910 CA GLU A 438 34.667 36.892 79.213 1.00 26.89 C ATOM 911 C GLU A 438 35.171 35.463 78.993 1.00 27.13 C ATOM 912 O GLU A 438 35.102 34.628 79.897 1.00 27.06 O ATOM 913 CB GLU A 438 35.580 37.654 80.198 1.00 27.05 C ATOM 914 CG GLU A 438 37.092 37.651 79.870 1.00 27.00 C ATOM 915 CD GLU A 438 37.968 38.247 80.985 1.00 27.15 C ATOM 916 OE1 GLU A 438 37.438 38.657 82.043 1.00 27.17 O ATOM 917 OE2 GLU A 438 39.200 38.305 80.800 1.00 27.28 O ATOM 918 N GLY A 439 35.663 35.190 77.786 1.00 27.38 N ATOM 919 CA GLY A 439 36.186 33.869 77.437 1.00 27.69 C ATOM 920 C GLY A 439 36.187 33.655 75.937 1.00 28.01 C ATOM 921 O GLY A 439 36.276 34.618 75.175 1.00 27.99 O ATOM 922 N LYS A 440 36.070 32.398 75.515 1.00 28.29 N ATOM 923 CA LYS A 440 36.070 32.055 74.091 1.00 28.86 C ATOM 924 C LYS A 440 34.708 31.562 73.572 1.00 28.91 C ATOM 925 O LYS A 440 34.643 30.751 72.646 1.00 28.81 O ATOM 926 CB LYS A 440 37.189 31.056 73.771 1.00 28.79 C ATOM 927 CG LYS A 440 38.573 31.669 73.788 1.00 29.25 C ATOM 928 CD LYS A 440 39.671 30.647 73.514 1.00 29.58 C ATOM 929 CE LYS A 440 41.025 31.181 73.981 1.00 32.26 C ATOM 930 NZ LYS A 440 42.210 30.475 73.387 1.00 34.61 N ATOM 931 N GLY A 441 33.635 32.066 74.182 1.00 29.22 N ATOM 932 CA GLY A 441 32.247 31.837 73.751 1.00 29.39 C ATOM 933 C GLY A 441 31.902 30.624 72.898 1.00 29.74 C ATOM 934 O GLY A 441 31.804 30.723 71.664 1.00 30.16 O ATOM 935 N ILE A 442 31.692 29.495 73.570 1.00 29.48 N ATOM 936 CA ILE A 442 31.331 28.183 72.982 1.00 29.24 C ATOM 937 C ILE A 442 32.529 27.260 72.835 1.00 29.30 C ATOM 938 O ILE A 442 32.421 26.060 73.087 1.00 29.36 O ATOM 939 CB ILE A 442 30.471 28.218 71.676 1.00 29.23 C ATOM 940 CG1 ILE A 442 29.521 27.013 71.663 1.00 28.90 C ATOM 941 CG2 ILE A 442 31.342 28.223 70.406 1.00 29.20 C ATOM 942 CD1 ILE A 442 28.568 26.969 70.500 1.00 28.87 C ATOM 943 N PHE A 443 33.666 27.827 72.441 1.00 29.29 N ATOM 944 CA PHE A 443 34.917 27.082 72.423 1.00 29.35 C ATOM 945 C PHE A 443 35.681 27.286 73.730 1.00 29.62 C ATOM 946 O PHE A 443 36.812 26.820 73.869 1.00 29.85 O ATOM 947 CB PHE A 443 35.779 27.487 71.226 1.00 29.12 C ATOM 948 CG PHE A 443 35.159 27.170 69.898 1.00 28.46 C ATOM 949 CD1 PHE A 443 35.135 25.864 69.421 1.00 27.52 C ATOM 950 CD2 PHE A 443 34.608 28.183 69.117 1.00 28.14 C ATOM 951 CE1 PHE A 443 34.567 25.569 68.190 1.00 27.35 C ATOM 952 CE2 PHE A 443 34.038 27.897 67.882 1.00 28.03 C ATOM 953 CZ PHE A 443 34.018 26.585 67.418 1.00 27.93 C ATOM 954 N GLY A 444 35.051 27.974 74.682 1.00 29.88 N ATOM 955 CA GLY A 444 35.673 28.271 75.969 1.00 30.23 C ATOM 956 C GLY A 444 34.792 27.965 77.165 1.00 30.47 C ATOM 957 O GLY A 444 34.915 28.599 78.215 1.00 30.75 O ATOM 958 N MET A 445 33.903 26.993 77.008 1.00 30.69 N ATOM 959 CA MET A 445 32.998 26.609 78.080 1.00 30.93 C ATOM 960 C MET A 445 33.650 25.617 79.045 1.00 31.23 C ATOM 961 O MET A 445 34.426 24.744 78.636 1.00 31.25 O ATOM 962 CB MET A 445 31.713 26.021 77.505 1.00 30.86 C ATOM 963 CG MET A 445 30.912 26.994 76.638 1.00 31.34 C ATOM 964 SD MET A 445 29.299 26.331 76.177 1.00 31.05 S ATOM 965 CE MET A 445 28.417 26.465 77.738 1.00 32.17 C ATOM 966 N SER A 446 33.322 25.766 80.327 1.00 31.49 N ATOM 967 CA SER A 446 33.792 24.870 81.376 1.00 31.67 C ATOM 968 C SER A 446 33.178 23.492 81.197 1.00 31.55 C ATOM 969 O SER A 446 32.053 23.370 80.706 1.00 31.82 O ATOM 970 CB SER A 446 33.415 25.426 82.750 1.00 31.84 C ATOM 971 OG SER A 446 33.575 24.444 83.765 1.00 32.86 O ATOM 972 N SER A 447 33.917 22.459 81.597 1.00 31.13 N ATOM 973 CA SER A 447 33.421 21.090 81.501 1.00 30.68 C ATOM 974 C SER A 447 32.562 20.718 82.710 1.00 30.22 C ATOM 975 O SER A 447 31.979 19.638 82.746 1.00 30.35 O ATOM 976 CB SER A 447 34.579 20.100 81.334 1.00 30.68 C ATOM 977 OG SER A 447 35.318 19.974 82.535 1.00 31.08 O ATOM 978 N GLN A 448 32.502 21.607 83.700 1.00 29.73 N ATOM 979 CA GLN A 448 31.628 21.417 84.863 1.00 29.21 C ATOM 980 C GLN A 448 30.566 22.515 84.954 1.00 29.04 C ATOM 981 O GLN A 448 30.813 23.670 84.591 1.00 29.02 O ATOM 982 CB GLN A 448 32.431 21.351 86.164 1.00 29.09 C ATOM 983 CG GLN A 448 33.414 20.180 86.264 1.00 28.72 C ATOM 984 CD GLN A 448 32.736 18.822 86.323 1.00 27.71 C ATOM 985 OE1 GLN A 448 31.738 18.635 87.015 1.00 27.04 O ATOM 986 NE2 GLN A 448 33.288 17.864 85.598 1.00 27.56 N ATOM 987 N LYS A 449 29.386 22.140 85.437 1.00 28.75 N ATOM 988 CA LYS A 449 28.260 23.056 85.547 1.00 28.13 C ATOM 989 C LYS A 449 28.364 23.905 86.803 1.00 28.03 C ATOM 990 O LYS A 449 28.642 23.401 87.890 1.00 27.89 O ATOM 991 CB LYS A 449 26.935 22.281 85.551 1.00 28.13 C ATOM 992 CG LYS A 449 25.683 23.146 85.666 1.00 27.71 C ATOM 993 CD LYS A 449 24.433 22.287 85.687 1.00 27.89 C ATOM 994 CE LYS A 449 23.158 23.122 85.668 1.00 27.72 C ATOM 995 NZ LYS A 449 22.887 23.694 84.328 1.00 27.00 N ATOM 996 N GLU A 450 28.149 25.203 86.631 1.00 27.87 N ATOM 997 CA GLU A 450 27.903 26.104 87.740 1.00 27.86 C ATOM 998 C GLU A 450 26.457 26.551 87.580 1.00 27.60 C ATOM 999 O GLU A 450 26.071 26.999 86.508 1.00 27.70 O ATOM 1000 CB GLU A 450 28.853 27.312 87.693 1.00 27.98 C ATOM 1001 CG GLU A 450 30.340 26.969 87.573 1.00 27.79 C ATOM 1002 CD GLU A 450 31.243 28.200 87.508 1.00 28.15 C ATOM 1003 OE1 GLU A 450 30.733 29.320 87.274 1.00 27.29 O ATOM 1004 OE2 GLU A 450 32.475 28.042 87.693 1.00 28.47 O ATOM 1005 N GLU A 451 25.653 26.404 88.629 1.00 27.58 N ATOM 1006 CA GLU A 451 24.268 26.881 88.609 1.00 27.46 C ATOM 1007 C GLU A 451 24.236 28.372 88.260 1.00 27.42 C ATOM 1008 O GLU A 451 24.937 29.177 88.885 1.00 27.25 O ATOM 1009 CB GLU A 451 23.593 26.656 89.968 1.00 27.50 C ATOM 1010 CG GLU A 451 23.557 25.206 90.466 1.00 28.34 C ATOM 1011 CD GLU A 451 22.642 24.295 89.650 1.00 30.83 C ATOM 1012 OE1 GLU A 451 21.708 24.795 88.967 1.00 31.10 O ATOM 1013 OE2 GLU A 451 22.861 23.061 89.698 1.00 31.27 O ATOM 1014 N ALA A 452 23.440 28.740 87.258 1.00 27.16 N ATOM 1015 CA ALA A 452 23.347 30.144 86.857 1.00 27.28 C ATOM 1016 C ALA A 452 22.192 30.905 87.520 1.00 27.29 C ATOM 1017 O ALA A 452 22.262 32.121 87.680 1.00 27.18 O ATOM 1018 CB ALA A 452 23.297 30.273 85.332 1.00 27.02 C ATOM 1019 N TYR A 453 21.147 30.181 87.913 1.00 27.68 N ATOM 1020 CA TYR A 453 19.911 30.785 88.422 1.00 28.01 C ATOM 1021 C TYR A 453 19.380 30.015 89.623 1.00 28.98 C ATOM 1022 O TYR A 453 19.600 28.803 89.746 1.00 29.02 O ATOM 1023 CB TYR A 453 18.831 30.840 87.324 1.00 27.18 C ATOM 1024 CG TYR A 453 19.238 31.623 86.092 1.00 26.04 C ATOM 1025 CD1 TYR A 453 19.073 33.010 86.032 1.00 24.87 C ATOM 1026 CD2 TYR A 453 19.791 30.976 84.989 1.00 24.60 C ATOM 1027 CE1 TYR A 453 19.456 33.728 84.906 1.00 24.60 C ATOM 1028 CE2 TYR A 453 20.176 31.680 83.862 1.00 23.78 C ATOM 1029 CZ TYR A 453 20.011 33.051 83.826 1.00 24.97 C ATOM 1030 OH TYR A 453 20.402 33.740 82.706 1.00 25.06 O ATOM 1031 N LYS A 454 18.678 30.726 90.504 1.00 30.08 N ATOM 1032 CA LYS A 454 18.076 30.121 91.689 1.00 31.15 C ATOM 1033 C LYS A 454 16.626 30.589 91.862 1.00 31.82 C ATOM 1034 O LYS A 454 16.318 31.760 91.623 1.00 31.94 O ATOM 1035 CB LYS A 454 18.909 30.455 92.934 1.00 31.33 C ATOM 1036 CG LYS A 454 18.583 29.601 94.152 1.00 31.98 C ATOM 1037 CD LYS A 454 19.606 29.749 95.254 1.00 32.85 C ATOM 1038 CE LYS A 454 19.384 28.677 96.311 1.00 34.21 C ATOM 1039 NZ LYS A 454 20.418 28.710 97.385 1.00 35.38 N ATOM 1040 N LYS A 455 15.743 29.672 92.266 1.00 32.56 N ATOM 1041 CA LYS A 455 14.345 30.012 92.541 1.00 33.36 C ATOM 1042 C LYS A 455 14.082 30.168 94.045 1.00 33.80 C ATOM 1043 O LYS A 455 13.848 29.182 94.758 1.00 33.99 O ATOM 1044 CB LYS A 455 13.392 28.981 91.918 1.00 33.32 C ATOM 1045 CG LYS A 455 11.947 29.478 91.778 1.00 33.38 C ATOM 1046 CD LYS A 455 11.103 28.551 90.915 1.00 33.73 C ATOM 1047 CE LYS A 455 11.440 28.708 89.431 1.00 35.53 C ATOM 1048 NZ LYS A 455 10.645 27.794 88.554 1.00 35.83 N ATOM 1049 N ILE A 456 14.132 31.413 94.518 1.00 34.33 N ATOM 1050 CA ILE A 456 13.875 31.723 95.921 1.00 34.64 C ATOM 1051 C ILE A 456 12.438 32.204 96.078 1.00 35.06 C ATOM 1052 O ILE A 456 12.077 33.286 95.596 1.00 35.06 O ATOM 1053 CB ILE A 456 14.884 32.764 96.483 1.00 34.86 C ATOM 1054 CG1 ILE A 456 16.275 32.128 96.613 1.00 34.65 C ATOM 1055 CG2 ILE A 456 14.419 33.311 97.846 1.00 34.84 C ATOM 1056 CD1 ILE A 456 17.398 33.111 96.824 1.00 33.67 C ATOM 1057 N ASP A 457 11.624 31.373 96.734 1.00 35.43 N ATOM 1058 CA ASP A 457 10.211 31.667 96.999 1.00 35.68 C ATOM 1059 C ASP A 457 9.441 31.994 95.714 1.00 35.54 C ATOM 1060 O ASP A 457 8.719 32.997 95.634 1.00 35.36 O ATOM 1061 CB ASP A 457 10.075 32.796 98.036 1.00 36.00 C ATOM 1062 CG ASP A 457 8.673 32.903 98.611 1.00 37.06 C ATOM 1063 OD1 ASP A 457 8.129 31.869 99.069 1.00 38.08 O ATOM 1064 OD2 ASP A 457 8.119 34.027 98.609 1.00 37.98 O ATOM 1065 N GLY A 458 9.615 31.140 94.708 1.00 35.45 N ATOM 1066 CA GLY A 458 8.890 31.266 93.444 1.00 35.31 C ATOM 1067 C GLY A 458 9.391 32.320 92.467 1.00 35.17 C ATOM 1068 O GLY A 458 8.835 32.461 91.379 1.00 35.36 O ATOM 1069 N LYS A 459 10.426 33.065 92.844 1.00 34.83 N ATOM 1070 CA LYS A 459 11.026 34.048 91.943 1.00 34.52 C ATOM 1071 C LYS A 459 12.431 33.620 91.551 1.00 34.05 C ATOM 1072 O LYS A 459 13.197 33.146 92.396 1.00 34.34 O ATOM 1073 CB LYS A 459 11.059 35.444 92.575 1.00 34.73 C ATOM 1074 CG LYS A 459 9.725 36.175 92.571 1.00 35.27 C ATOM 1075 CD LYS A 459 9.925 37.690 92.527 1.00 36.81 C ATOM 1076 CE LYS A 459 8.635 38.434 92.884 1.00 37.56 C ATOM 1077 NZ LYS A 459 8.645 39.850 92.410 1.00 37.55 N ATOM 1078 N THR A 460 12.758 33.797 90.271 1.00 33.21 N ATOM 1079 CA THR A 460 14.049 33.402 89.715 1.00 32.58 C ATOM 1080 C THR A 460 15.046 34.570 89.731 1.00 32.18 C ATOM 1081 O THR A 460 14.779 35.640 89.180 1.00 32.07 O ATOM 1082 CB THR A 460 13.886 32.834 88.267 1.00 32.65 C ATOM 1083 OG1 THR A 460 13.015 31.695 88.291 1.00 32.79 O ATOM 1084 CG2 THR A 460 15.228 32.410 87.673 1.00 32.25 C ATOM 1085 N TYR A 461 16.190 34.362 90.377 1.00 31.76 N ATOM 1086 CA TYR A 461 17.275 35.352 90.366 1.00 31.46 C ATOM 1087 C TYR A 461 18.567 34.737 89.828 1.00 31.03 C ATOM 1088 O TYR A 461 18.869 33.573 90.097 1.00 30.81 O ATOM 1089 CB TYR A 461 17.528 35.929 91.766 1.00 31.44 C ATOM 1090 CG TYR A 461 16.314 36.501 92.475 1.00 31.69 C ATOM 1091 CD1 TYR A 461 15.691 37.661 92.014 1.00 31.59 C ATOM 1092 CD2 TYR A 461 15.807 35.896 93.629 1.00 32.41 C ATOM 1093 CE1 TYR A 461 14.585 38.195 92.667 1.00 31.82 C ATOM 1094 CE2 TYR A 461 14.692 36.423 94.298 1.00 32.05 C ATOM 1095 CZ TYR A 461 14.089 37.574 93.807 1.00 32.14 C ATOM 1096 OH TYR A 461 12.992 38.112 94.447 1.00 31.78 O ATOM 1097 N GLN A 462 19.323 35.520 89.065 1.00 30.90 N ATOM 1098 CA GLN A 462 20.641 35.086 88.610 1.00 30.97 C ATOM 1099 C GLN A 462 21.596 34.949 89.800 1.00 31.28 C ATOM 1100 O GLN A 462 21.537 35.733 90.752 1.00 31.18 O ATOM 1101 CB GLN A 462 21.218 36.031 87.544 1.00 30.83 C ATOM 1102 CG GLN A 462 22.506 35.512 86.898 1.00 30.35 C ATOM 1103 CD GLN A 462 22.924 36.274 85.654 1.00 30.59 C ATOM 1104 OE1 GLN A 462 22.653 37.468 85.505 1.00 30.10 O ATOM 1105 NE2 GLN A 462 23.605 35.583 84.756 1.00 30.48 N ATOM 1106 N ILE A 463 22.455 33.936 89.732 1.00 31.51 N ATOM 1107 CA ILE A 463 23.425 33.639 90.776 1.00 31.87 C ATOM 1108 C ILE A 463 24.729 34.424 90.572 1.00 32.48 C ATOM 1109 O ILE A 463 25.079 34.784 89.442 1.00 32.35 O ATOM 1110 CB ILE A 463 23.691 32.107 90.851 1.00 31.66 C ATOM 1111 CG1 ILE A 463 22.452 31.392 91.404 1.00 31.56 C ATOM 1112 CG2 ILE A 463 24.926 31.790 91.703 1.00 31.59 C ATOM 1113 CD1 ILE A 463 22.508 29.881 91.330 1.00 31.58 C ATOM 1114 N LEU A 464 25.418 34.707 91.679 1.00 33.20 N ATOM 1115 CA LEU A 464 26.769 35.267 91.651 1.00 33.99 C ATOM 1116 C LEU A 464 27.719 34.414 92.488 1.00 34.80 C ATOM 1117 O LEU A 464 27.342 33.913 93.546 1.00 35.10 O ATOM 1118 CB LEU A 464 26.777 36.715 92.156 1.00 33.79 C ATOM 1119 CG LEU A 464 26.077 37.800 91.325 1.00 33.47 C ATOM 1120 CD1 LEU A 464 25.934 39.075 92.145 1.00 33.53 C ATOM 1121 CD2 LEU A 464 26.799 38.088 90.011 1.00 32.46 C ATOM 1122 N TYR A 465 28.950 34.244 92.019 1.00 35.71 N ATOM 1123 CA TYR A 465 29.946 33.497 92.786 1.00 36.81 C ATOM 1124 C TYR A 465 31.054 34.400 93.309 1.00 37.67 C ATOM 1125 O TYR A 465 31.750 35.059 92.529 1.00 37.90 O ATOM 1126 CB TYR A 465 30.519 32.348 91.958 1.00 36.45 C ATOM 1127 CG TYR A 465 29.486 31.298 91.633 1.00 36.63 C ATOM 1128 CD1 TYR A 465 29.124 30.335 92.577 1.00 36.31 C ATOM 1129 CD2 TYR A 465 28.854 31.274 90.389 1.00 35.95 C ATOM 1130 CE1 TYR A 465 28.171 29.373 92.289 1.00 35.78 C ATOM 1131 CE2 TYR A 465 27.901 30.312 90.092 1.00 35.68 C ATOM 1132 CZ TYR A 465 27.562 29.367 91.047 1.00 35.72 C ATOM 1133 OH TYR A 465 26.617 28.410 90.763 1.00 35.88 O ATOM 1134 N ARG A 466 31.193 34.440 94.634 1.00 38.77 N ATOM 1135 CA ARG A 466 32.236 35.234 95.283 1.00 39.86 C ATOM 1136 C ARG A 466 33.581 34.514 95.260 1.00 40.53 C ATOM 1137 O ARG A 466 33.645 33.288 95.360 1.00 40.57 O ATOM 1138 CB ARG A 466 31.857 35.597 96.723 1.00 39.72 C ATOM 1139 CG ARG A 466 32.639 36.797 97.254 1.00 40.77 C ATOM 1140 CD ARG A 466 32.776 36.805 98.767 1.00 41.70 C ATOM 1141 NE ARG A 466 31.675 37.514 99.415 1.00 42.18 N ATOM 1142 CZ ARG A 466 31.712 38.791 99.786 1.00 41.94 C ATOM 1143 NH1 ARG A 466 32.801 39.520 99.575 1.00 42.15 N ATOM 1144 NH2 ARG A 466 30.653 39.340 100.367 1.00 41.42 N ATOM 1145 N GLU A 467 34.650 35.296 95.125 1.00 41.52 N ATOM 1146 CA GLU A 467 36.018 34.783 95.150 1.00 42.71 C ATOM 1147 C GLU A 467 36.284 33.988 96.427 1.00 42.58 C ATOM 1148 O GLU A 467 35.961 34.439 97.529 1.00 42.43 O ATOM 1149 CB GLU A 467 37.026 35.934 95.013 1.00 42.52 C ATOM 1150 CG GLU A 467 36.793 36.815 93.779 1.00 43.91 C ATOM 1151 CD GLU A 467 37.848 37.911 93.586 1.00 44.52 C ATOM 1152 OE1 GLU A 467 38.401 38.426 94.596 1.00 45.70 O ATOM 1153 OE2 GLU A 467 38.107 38.264 92.406 1.00 46.43 O ATOM 1154 N GLY A 468 36.839 32.791 96.260 1.00 42.99 N ATOM 1155 CA GLY A 468 37.223 31.935 97.382 1.00 43.41 C ATOM 1156 C GLY A 468 36.083 31.287 98.148 1.00 43.72 C ATOM 1157 O GLY A 468 36.264 30.225 98.740 1.00 43.91 O ATOM 1158 N GLU A 469 34.913 31.924 98.131 1.00 43.84 N ATOM 1159 CA GLU A 469 33.741 31.476 98.891 1.00 43.93 C ATOM 1160 C GLU A 469 32.773 30.613 98.064 1.00 43.78 C ATOM 1161 O GLU A 469 32.518 30.890 96.888 1.00 43.77 O ATOM 1162 CB GLU A 469 33.012 32.701 99.446 1.00 43.93 C ATOM 1163 CG GLU A 469 31.947 32.426 100.496 1.00 44.20 C ATOM 1164 CD GLU A 469 31.289 33.709 100.977 1.00 44.52 C ATOM 1165 OE1 GLU A 469 32.020 34.704 101.199 1.00 45.61 O ATOM 1166 OE2 GLU A 469 30.048 33.728 101.131 1.00 44.33 O ATOM 1167 N LYS A 470 32.242 29.568 98.692 1.00 43.64 N ATOM 1168 CA LYS A 470 31.237 28.706 98.076 1.00 43.38 C ATOM 1169 C LYS A 470 29.845 29.144 98.527 1.00 43.57 C ATOM 1170 O LYS A 470 29.628 29.407 99.716 1.00 43.58 O ATOM 1171 CB LYS A 470 31.478 27.244 98.466 1.00 43.10 C ATOM 1172 CG LYS A 470 30.372 26.284 98.048 1.00 42.93 C ATOM 1173 CD LYS A 470 30.552 24.908 98.672 1.00 43.10 C ATOM 1174 CE LYS A 470 29.463 23.940 98.218 1.00 42.35 C ATOM 1175 NZ LYS A 470 29.695 22.557 98.730 1.00 41.88 N ATOM 1176 N GLY A 471 28.907 29.226 97.584 1.00 43.45 N ATOM 1177 CA GLY A 471 27.521 29.509 97.938 1.00 43.50 C ATOM 1178 C GLY A 471 26.746 30.403 96.992 1.00 43.60 C ATOM 1179 O GLY A 471 27.325 31.072 96.132 1.00 43.40 O ATOM 1180 N ALA A 472 25.426 30.403 97.189 1.00 43.70 N ATOM 1181 CA ALA A 472 24.447 31.134 96.374 1.00 43.79 C ATOM 1182 C ALA A 472 24.861 32.539 95.941 1.00 43.90 C ATOM 1183 O ALA A 472 25.612 32.680 94.984 1.00 44.39 O ATOM 1184 CB ALA A 472 23.082 31.167 97.086 1.00 43.83 C ATOM 1185 N TYR A 473 24.382 33.564 96.646 1.00 43.76 N ATOM 1186 CA TYR A 473 24.408 34.964 96.173 1.00 43.85 C ATOM 1187 C TYR A 473 23.495 35.144 94.959 1.00 43.83 C ATOM 1188 O TYR A 473 23.697 34.517 93.917 1.00 43.65 O ATOM 1189 CB TYR A 473 25.827 35.465 95.844 1.00 43.88 C ATOM 1190 CG TYR A 473 26.710 35.768 97.038 1.00 43.94 C ATOM 1191 CD1 TYR A 473 26.581 36.965 97.744 1.00 43.71 C ATOM 1192 CD2 TYR A 473 27.693 34.866 97.443 1.00 43.92 C ATOM 1193 CE1 TYR A 473 27.397 37.245 98.838 1.00 43.70 C ATOM 1194 CE2 TYR A 473 28.512 35.135 98.528 1.00 44.09 C ATOM 1195 CZ TYR A 473 28.360 36.324 99.223 1.00 44.20 C ATOM 1196 OH TYR A 473 29.178 36.582 100.301 1.00 43.91 O ATOM 1197 N THR A 474 22.490 36.003 95.099 1.00 43.97 N ATOM 1198 CA THR A 474 21.526 36.237 94.023 1.00 44.30 C ATOM 1199 C THR A 474 21.522 37.696 93.569 1.00 44.53 C ATOM 1200 O THR A 474 22.269 38.503 94.108 1.00 44.67 O ATOM 1201 CB THR A 474 20.108 35.793 94.429 1.00 44.25 C ATOM 1202 OG1 THR A 474 19.760 36.379 95.690 1.00 44.06 O ATOM 1203 CG2 THR A 474 20.038 34.274 94.524 1.00 43.92 C ATOM 1204 N ILE A 475 20.714 38.021 92.558 1.00 44.83 N ATOM 1205 CA ILE A 475 20.557 39.406 92.090 1.00 45.16 C ATOM 1206 C ILE A 475 19.078 39.760 92.080 1.00 45.58 C ATOM 1207 O ILE A 475 18.317 39.248 91.258 1.00 45.86 O ATOM 1208 CB ILE A 475 21.143 39.634 90.673 1.00 45.04 C ATOM 1209 CG1 ILE A 475 22.626 39.254 90.627 1.00 44.87 C ATOM 1210 CG2 ILE A 475 20.947 41.092 90.243 1.00 45.27 C ATOM 1211 CD1 ILE A 475 23.206 39.163 89.230 1.00 44.94 C ATOM 1212 N ARG A 476 18.676 40.642 92.989 1.00 46.07 N ATOM 1213 CA ARG A 476 17.262 40.925 93.205 1.00 46.46 C ATOM 1214 C ARG A 476 16.931 42.393 92.960 1.00 47.15 C ATOM 1215 O ARG A 476 17.814 43.190 92.646 1.00 47.38 O ATOM 1216 CB ARG A 476 16.855 40.523 94.630 1.00 46.53 C ATOM 1217 CG ARG A 476 17.318 39.130 95.073 1.00 46.02 C ATOM 1218 CD ARG A 476 16.674 38.721 96.393 1.00 45.61 C ATOM 1219 NE ARG A 476 17.381 37.617 97.048 1.00 43.22 N ATOM 1220 CZ ARG A 476 16.890 36.897 98.055 1.00 41.95 C ATOM 1221 NH1 ARG A 476 15.677 37.147 98.532 1.00 41.15 N ATOM 1222 NH2 ARG A 476 17.612 35.921 98.586 1.00 41.08 N ATOM 1223 N GLU A 477 15.644 42.718 93.070 1.00 47.83 N ATOM 1224 CA GLU A 477 15.145 44.097 93.210 1.00 48.66 C ATOM 1225 C GLU A 477 15.764 45.147 92.277 1.00 48.96 C ATOM 1226 O GLU A 477 15.403 45.216 91.099 1.00 49.26 O ATOM 1227 CB GLU A 477 15.246 44.540 94.673 1.00 48.88 C ATOM 1228 CG GLU A 477 14.525 43.606 95.644 1.00 49.75 C ATOM 1229 CD GLU A 477 15.094 43.654 97.047 1.00 50.82 C ATOM 1230 OE1 GLU A 477 16.171 44.264 97.244 1.00 51.19 O ATOM 1231 OE2 GLU A 477 14.462 43.073 97.956 1.00 51.58 O ATOM 1232 N ASN A 478 16.670 45.970 92.803 1.00 49.16 N ATOM 1233 CA ASN A 478 17.307 47.019 92.002 1.00 49.60 C ATOM 1234 C ASN A 478 18.776 46.694 91.739 1.00 49.57 C ATOM 1235 O ASN A 478 19.636 47.579 91.715 1.00 49.52 O ATOM 1236 CB ASN A 478 17.162 48.393 92.677 1.00 49.75 C ATOM 1237 CG ASN A 478 17.332 49.562 91.694 1.00 50.95 C ATOM 1238 OD1 ASN A 478 16.850 49.520 90.554 1.00 51.93 O ATOM 1239 ND2 ASN A 478 18.013 50.617 92.143 1.00 51.48 N ATOM 1240 N GLY A 479 19.052 45.409 91.544 1.00 49.58 N ATOM 1241 CA GLY A 479 20.420 44.932 91.399 1.00 49.48 C ATOM 1242 C GLY A 479 21.101 44.677 92.727 1.00 49.41 C ATOM 1243 O GLY A 479 22.273 44.296 92.760 1.00 49.20 O ATOM 1244 N THR A 480 20.366 44.897 93.820 1.00 49.52 N ATOM 1245 CA THR A 480 20.839 44.590 95.171 1.00 49.47 C ATOM 1246 C THR A 480 21.220 43.116 95.210 1.00 49.49 C ATOM 1247 O THR A 480 20.402 42.254 94.879 1.00 49.41 O ATOM 1248 CB THR A 480 19.749 44.867 96.233 1.00 49.46 C ATOM 1249 OG1 THR A 480 19.269 46.209 96.096 1.00 49.58 O ATOM 1250 CG2 THR A 480 20.299 44.678 97.636 1.00 49.27 C ATOM 1251 N VAL A 481 22.463 42.837 95.600 1.00 49.60 N ATOM 1252 CA VAL A 481 23.004 41.477 95.530 1.00 49.75 C ATOM 1253 C VAL A 481 22.244 40.482 96.422 1.00 50.03 C ATOM 1254 O VAL A 481 21.356 39.791 95.923 1.00 50.33 O ATOM 1255 CB VAL A 481 24.545 41.437 95.725 1.00 49.65 C ATOM 1256 CG1 VAL A 481 25.062 40.001 95.770 1.00 49.63 C ATOM 1257 CG2 VAL A 481 25.227 42.189 94.591 1.00 49.47 C ATOM 1258 N TYR A 482 22.559 40.430 97.718 1.00 50.05 N ATOM 1259 CA TYR A 482 21.996 39.426 98.644 1.00 50.04 C ATOM 1260 C TYR A 482 22.929 38.237 98.854 1.00 50.23 C ATOM 1261 O TYR A 482 23.433 37.650 97.894 1.00 50.16 O ATOM 1262 CB TYR A 482 20.610 38.922 98.204 1.00 49.83 C ATOM 1263 CG TYR A 482 19.457 39.809 98.616 1.00 49.68 C ATOM 1264 CD1 TYR A 482 18.632 39.454 99.682 1.00 49.36 C ATOM 1265 CD2 TYR A 482 19.190 41.004 97.942 1.00 49.42 C ATOM 1266 CE1 TYR A 482 17.568 40.263 100.067 1.00 49.38 C ATOM 1267 CE2 TYR A 482 18.132 41.820 98.319 1.00 49.59 C ATOM 1268 CZ TYR A 482 17.324 41.443 99.382 1.00 49.70 C ATOM 1269 OH TYR A 482 16.274 42.249 99.763 1.00 49.75 O ATOM 1270 N THR A 483 23.136 37.895 100.124 1.00 50.47 N ATOM 1271 CA THR A 483 23.974 36.772 100.545 1.00 50.90 C ATOM 1272 C THR A 483 23.199 35.444 100.427 1.00 51.05 C ATOM 1273 O THR A 483 21.969 35.465 100.341 1.00 51.11 O ATOM 1274 CB THR A 483 24.499 37.012 102.002 1.00 50.89 C ATOM 1275 OG1 THR A 483 25.339 35.932 102.421 1.00 51.63 O ATOM 1276 CG2 THR A 483 23.361 37.151 102.981 1.00 50.61 C ATOM 1277 N PRO A 484 23.908 34.290 100.388 1.00 51.21 N ATOM 1278 CA PRO A 484 23.226 32.993 100.495 1.00 51.51 C ATOM 1279 C PRO A 484 22.342 32.841 101.743 1.00 52.04 C ATOM 1280 O PRO A 484 21.564 31.892 101.820 1.00 52.25 O ATOM 1281 CB PRO A 484 24.382 31.991 100.557 1.00 51.32 C ATOM 1282 CG PRO A 484 25.497 32.661 99.879 1.00 51.09 C ATOM 1283 CD PRO A 484 25.360 34.119 100.191 1.00 51.11 C ATOM 1284 N ASP A 485 22.468 33.760 102.702 1.00 52.65 N ATOM 1285 CA ASP A 485 21.617 33.788 103.898 1.00 53.28 C ATOM 1286 C ASP A 485 20.230 34.359 103.611 1.00 53.70 C ATOM 1287 O ASP A 485 19.280 34.110 104.357 1.00 53.74 O ATOM 1288 CB ASP A 485 22.265 34.629 105.008 1.00 53.34 C ATOM 1289 CG ASP A 485 23.160 33.818 105.930 1.00 53.68 C ATOM 1290 OD1 ASP A 485 23.146 32.570 105.859 1.00 54.20 O ATOM 1291 OD2 ASP A 485 23.876 34.440 106.745 1.00 54.15 O ATOM 1292 N GLY A 486 20.123 35.140 102.540 1.00 54.20 N ATOM 1293 CA GLY A 486 18.902 35.880 102.244 1.00 54.87 C ATOM 1294 C GLY A 486 18.923 37.262 102.871 1.00 55.36 C ATOM 1295 O GLY A 486 17.933 37.992 102.815 1.00 55.25 O ATOM 1296 N LYS A 487 20.056 37.618 103.474 1.00 56.00 N ATOM 1297 CA LYS A 487 20.240 38.938 104.072 1.00 56.75 C ATOM 1298 C LYS A 487 20.544 39.941 102.978 1.00 57.05 C ATOM 1299 O LYS A 487 21.427 39.720 102.147 1.00 56.96 O ATOM 1300 CB LYS A 487 21.367 38.935 105.115 1.00 56.57 C ATOM 1301 CG LYS A 487 21.052 38.146 106.380 1.00 57.10 C ATOM 1302 CD LYS A 487 22.250 38.073 107.318 1.00 57.24 C ATOM 1303 CE LYS A 487 21.909 37.278 108.574 1.00 58.10 C ATOM 1304 NZ LYS A 487 23.053 37.209 109.523 1.00 58.35 N ATOM 1305 N ALA A 488 19.795 41.038 102.976 1.00 57.66 N ATOM 1306 CA ALA A 488 20.016 42.116 102.024 1.00 58.21 C ATOM 1307 C ALA A 488 21.345 42.791 102.321 1.00 58.52 C ATOM 1308 O ALA A 488 21.388 43.868 102.919 1.00 58.69 O ATOM 1309 CB ALA A 488 18.871 43.126 102.080 1.00 58.23 C ATOM 1310 N THR A 489 22.434 42.134 101.927 1.00 58.91 N ATOM 1311 CA THR A 489 23.758 42.720 102.064 1.00 59.21 C ATOM 1312 C THR A 489 23.867 43.829 101.039 1.00 59.31 C ATOM 1313 O THR A 489 24.367 43.625 99.926 1.00 59.47 O ATOM 1314 CB THR A 489 24.897 41.697 101.867 1.00 59.35 C ATOM 1315 OG1 THR A 489 24.732 41.024 100.610 1.00 59.36 O ATOM 1316 CG2 THR A 489 24.925 40.684 103.016 1.00 59.44 C ATOM 1317 N ASP A 490 23.354 44.995 101.428 1.00 59.49 N ATOM 1318 CA ASP A 490 23.426 46.208 100.627 1.00 59.47 C ATOM 1319 C ASP A 490 24.878 46.589 100.392 1.00 59.15 C ATOM 1320 O ASP A 490 25.767 45.732 100.415 1.00 59.07 O ATOM 1321 CB ASP A 490 22.670 47.362 101.306 1.00 59.79 C ATOM 1322 CG ASP A 490 21.195 47.413 100.923 1.00 60.56 C ATOM 1323 OD1 ASP A 490 20.836 46.996 99.797 1.00 61.32 O ATOM 1324 OD2 ASP A 490 20.392 47.889 101.754 1.00 61.61 O ATOM 1325 N TYR A 491 25.121 47.881 100.192 1.00 58.80 N ATOM 1326 CA TYR A 491 26.371 48.340 99.612 1.00 58.40 C ATOM 1327 C TYR A 491 26.392 47.820 98.160 1.00 57.75 C ATOM 1328 O TYR A 491 26.462 48.607 97.216 1.00 57.86 O ATOM 1329 CB TYR A 491 27.596 47.847 100.417 1.00 58.72 C ATOM 1330 CG TYR A 491 27.702 48.334 101.862 1.00 59.19 C ATOM 1331 CD1 TYR A 491 28.821 49.054 102.294 1.00 59.58 C ATOM 1332 CD2 TYR A 491 26.701 48.050 102.804 1.00 59.90 C ATOM 1333 CE1 TYR A 491 28.935 49.494 103.624 1.00 59.77 C ATOM 1334 CE2 TYR A 491 26.801 48.486 104.133 1.00 59.88 C ATOM 1335 CZ TYR A 491 27.920 49.208 104.537 1.00 60.00 C ATOM 1336 OH TYR A 491 28.021 49.636 105.848 1.00 59.47 O ATOM 1337 N ARG A 492 26.268 46.500 98.004 1.00 56.87 N ATOM 1338 CA ARG A 492 26.362 45.797 96.714 1.00 55.99 C ATOM 1339 C ARG A 492 25.170 46.005 95.772 1.00 55.30 C ATOM 1340 O ARG A 492 24.038 45.624 96.097 1.00 55.16 O ATOM 1341 CB ARG A 492 26.530 44.291 96.955 1.00 56.02 C ATOM 1342 CG ARG A 492 27.615 43.899 97.936 1.00 55.82 C ATOM 1343 CD ARG A 492 28.978 44.160 97.347 1.00 55.09 C ATOM 1344 NE ARG A 492 30.038 43.774 98.264 1.00 54.67 N ATOM 1345 CZ ARG A 492 31.307 44.130 98.118 1.00 54.88 C ATOM 1346 NH1 ARG A 492 31.667 44.886 97.088 1.00 55.12 N ATOM 1347 NH2 ARG A 492 32.214 43.736 99.003 1.00 54.34 N ATOM 1348 N VAL A 493 25.436 46.602 94.609 1.00 54.40 N ATOM 1349 CA VAL A 493 24.464 46.652 93.505 1.00 53.50 C ATOM 1350 C VAL A 493 25.100 46.302 92.158 1.00 52.84 C ATOM 1351 O VAL A 493 26.219 46.722 91.853 1.00 52.57 O ATOM 1352 CB VAL A 493 23.677 48.008 93.393 1.00 53.56 C ATOM 1353 CG1 VAL A 493 22.510 48.056 94.378 1.00 53.58 C ATOM 1354 CG2 VAL A 493 24.593 49.226 93.550 1.00 53.62 C ATOM 1355 N VAL A 494 24.376 45.504 91.379 1.00 52.22 N ATOM 1356 CA VAL A 494 24.689 45.246 89.979 1.00 51.43 C ATOM 1357 C VAL A 494 23.725 46.093 89.169 1.00 51.11 C ATOM 1358 O VAL A 494 22.545 46.183 89.508 1.00 50.94 O ATOM 1359 CB VAL A 494 24.469 43.757 89.609 1.00 51.44 C ATOM 1360 CG1 VAL A 494 24.589 43.542 88.100 1.00 51.30 C ATOM 1361 CG2 VAL A 494 25.442 42.859 90.356 1.00 50.97 C ATOM 1362 N VAL A 495 24.210 46.724 88.109 1.00 50.70 N ATOM 1363 CA VAL A 495 23.318 47.522 87.280 1.00 50.49 C ATOM 1364 C VAL A 495 22.611 46.635 86.256 1.00 50.33 C ATOM 1365 O VAL A 495 23.245 45.812 85.588 1.00 50.33 O ATOM 1366 CB VAL A 495 24.035 48.701 86.569 1.00 50.59 C ATOM 1367 CG1 VAL A 495 23.036 49.816 86.276 1.00 50.69 C ATOM 1368 CG2 VAL A 495 25.177 49.253 87.414 1.00 50.31 C ATOM 1369 N ASP A 496 21.292 46.789 86.166 1.00 50.04 N ATOM 1370 CA ASP A 496 20.503 46.186 85.085 1.00 49.87 C ATOM 1371 C ASP A 496 19.498 47.131 84.418 1.00 49.79 C ATOM 1372 O ASP A 496 19.067 46.859 83.298 1.00 50.24 O ATOM 1373 CB ASP A 496 19.841 44.863 85.497 1.00 49.91 C ATOM 1374 CG ASP A 496 19.632 44.746 86.987 1.00 49.64 C ATOM 1375 OD1 ASP A 496 18.747 45.446 87.528 1.00 49.69 O ATOM 1376 OD2 ASP A 496 20.349 43.938 87.612 1.00 48.95 O ATOM 1377 N PRO A 497 19.089 48.220 85.102 1.00 49.61 N ATOM 1378 CA PRO A 497 18.498 49.306 84.330 1.00 49.37 C ATOM 1379 C PRO A 497 19.569 50.317 83.869 1.00 49.09 C ATOM 1380 O PRO A 497 19.712 51.401 84.445 1.00 49.14 O ATOM 1381 CB PRO A 497 17.493 49.935 85.313 1.00 49.36 C ATOM 1382 CG PRO A 497 17.737 49.253 86.664 1.00 49.79 C ATOM 1383 CD PRO A 497 19.037 48.515 86.543 1.00 49.76 C ATOM 1384 N VAL A 498 20.314 49.929 82.838 1.00 48.56 N ATOM 1385 CA VAL A 498 21.325 50.767 82.184 1.00 48.25 C ATOM 1386 C VAL A 498 20.712 51.380 80.912 1.00 47.87 C ATOM 1387 O VAL A 498 19.615 50.957 80.541 1.00 47.91 O ATOM 1388 CB VAL A 498 22.510 49.865 81.757 1.00 48.37 C ATOM 1389 CG1 VAL A 498 23.269 49.381 82.967 1.00 48.71 C ATOM 1390 CG2 VAL A 498 22.011 48.645 80.973 1.00 47.94 C ATOM 1391 N LYS A 499 21.303 52.394 80.251 1.00 47.45 N ATOM 1392 CA LYS A 499 21.910 53.668 80.760 1.00 46.98 C ATOM 1393 C LYS A 499 22.723 54.484 79.707 1.00 46.12 C ATOM 1394 O LYS A 499 22.172 55.438 79.153 1.00 46.15 O ATOM 1395 CB LYS A 499 22.474 53.650 82.189 1.00 47.26 C ATOM 1396 CG LYS A 499 21.515 54.396 83.127 1.00 47.49 C ATOM 1397 CD LYS A 499 21.848 54.249 84.613 1.00 47.72 C ATOM 1398 CE LYS A 499 20.859 55.117 85.430 1.00 48.69 C ATOM 1399 NZ LYS A 499 20.973 54.934 86.913 1.00 49.29 N ATOM 1400 N PRO A 500 24.017 54.167 79.459 1.00 45.38 N ATOM 1401 CA PRO A 500 24.596 54.413 78.118 1.00 44.83 C ATOM 1402 C PRO A 500 24.112 53.359 77.105 1.00 44.17 C ATOM 1403 O PRO A 500 22.981 52.885 77.227 1.00 44.27 O ATOM 1404 CB PRO A 500 26.113 54.292 78.350 1.00 44.82 C ATOM 1405 CG PRO A 500 26.300 54.334 79.837 1.00 45.03 C ATOM 1406 CD PRO A 500 25.053 53.724 80.401 1.00 45.46 C ATOM 1407 N ALA A 501 24.932 52.988 76.119 1.00 43.29 N ATOM 1408 CA ALA A 501 24.521 51.941 75.158 1.00 42.43 C ATOM 1409 C ALA A 501 24.677 50.525 75.755 1.00 41.67 C ATOM 1410 O ALA A 501 25.008 49.553 75.066 1.00 41.39 O ATOM 1411 CB ALA A 501 25.249 52.092 73.819 1.00 42.25 C ATOM 1412 N TYR A 502 24.425 50.453 77.062 1.00 40.73 N ATOM 1413 CA TYR A 502 24.354 49.214 77.846 1.00 39.80 C ATOM 1414 C TYR A 502 25.704 48.520 78.076 1.00 39.34 C ATOM 1415 O TYR A 502 25.747 47.387 78.555 1.00 39.10 O ATOM 1416 CB TYR A 502 23.271 48.259 77.299 1.00 39.59 C ATOM 1417 CG TYR A 502 21.994 48.963 76.867 1.00 39.08 C ATOM 1418 CD1 TYR A 502 21.276 49.763 77.757 1.00 39.08 C ATOM 1419 CD2 TYR A 502 21.512 48.838 75.565 1.00 38.95 C ATOM 1420 CE1 TYR A 502 20.115 50.419 77.364 1.00 38.94 C ATOM 1421 CE2 TYR A 502 20.346 49.486 75.162 1.00 38.78 C ATOM 1422 CZ TYR A 502 19.655 50.275 76.067 1.00 39.16 C ATOM 1423 OH TYR A 502 18.501 50.921 75.682 1.00 39.14 O ATOM 1424 N SER A 503 26.798 49.221 77.770 1.00 38.77 N ATOM 1425 CA SER A 503 28.149 48.731 78.064 1.00 38.23 C ATOM 1426 C SER A 503 28.399 48.607 79.570 1.00 37.99 C ATOM 1427 O SER A 503 29.287 47.867 80.004 1.00 37.96 O ATOM 1428 CB SER A 503 29.208 49.639 77.432 1.00 38.28 C ATOM 1429 OG SER A 503 29.057 50.983 77.853 1.00 38.21 O ATOM 1430 N ASP A 504 27.599 49.328 80.353 1.00 37.38 N ATOM 1431 CA ASP A 504 27.692 49.314 81.810 1.00 36.90 C ATOM 1432 C ASP A 504 26.814 48.245 82.482 1.00 36.55 C ATOM 1433 O ASP A 504 26.757 48.179 83.716 1.00 36.41 O ATOM 1434 CB ASP A 504 27.359 50.703 82.370 1.00 36.92 C ATOM 1435 CG ASP A 504 25.976 51.182 81.967 1.00 36.85 C ATOM 1436 OD1 ASP A 504 25.591 50.997 80.791 1.00 35.69 O ATOM 1437 OD2 ASP A 504 25.274 51.754 82.826 1.00 37.49 O ATOM 1438 N LYS A 505 26.131 47.421 81.683 1.00 36.02 N ATOM 1439 CA LYS A 505 25.350 46.302 82.224 1.00 35.44 C ATOM 1440 C LYS A 505 26.267 45.331 82.960 1.00 35.34 C ATOM 1441 O LYS A 505 27.318 44.952 82.447 1.00 35.26 O ATOM 1442 CB LYS A 505 24.561 45.573 81.127 1.00 35.29 C ATOM 1443 CG LYS A 505 23.566 44.543 81.664 1.00 34.88 C ATOM 1444 CD LYS A 505 22.717 43.927 80.562 1.00 34.92 C ATOM 1445 CE LYS A 505 21.958 42.698 81.052 1.00 34.21 C ATOM 1446 NZ LYS A 505 20.795 43.023 81.926 1.00 34.41 N ATOM 1447 N GLY A 506 25.873 44.954 84.171 1.00 35.37 N ATOM 1448 CA GLY A 506 26.664 44.038 84.991 1.00 35.52 C ATOM 1449 C GLY A 506 27.775 44.701 85.794 1.00 35.69 C ATOM 1450 O GLY A 506 28.508 44.025 86.522 1.00 35.44 O ATOM 1451 N ASP A 507 27.912 46.018 85.652 1.00 35.99 N ATOM 1452 CA ASP A 507 28.857 46.785 86.458 1.00 36.55 C ATOM 1453 C ASP A 507 28.509 46.612 87.927 1.00 37.00 C ATOM 1454 O ASP A 507 27.330 46.637 88.301 1.00 37.00 O ATOM 1455 CB ASP A 507 28.834 48.273 86.083 1.00 36.33 C ATOM 1456 CG ASP A 507 29.752 48.603 84.911 1.00 36.35 C ATOM 1457 OD1 ASP A 507 30.431 47.691 84.387 1.00 35.90 O ATOM 1458 OD2 ASP A 507 29.794 49.788 84.509 1.00 36.31 O ATOM 1459 N LEU A 508 29.531 46.415 88.752 1.00 37.44 N ATOM 1460 CA LEU A 508 29.306 46.216 90.177 1.00 38.11 C ATOM 1461 C LEU A 508 29.794 47.389 91.030 1.00 38.59 C ATOM 1462 O LEU A 508 30.950 47.813 90.937 1.00 38.69 O ATOM 1463 CB LEU A 508 29.901 44.883 90.648 1.00 37.85 C ATOM 1464 CG LEU A 508 29.372 44.443 92.019 1.00 37.85 C ATOM 1465 CD1 LEU A 508 28.942 42.996 92.002 1.00 36.87 C ATOM 1466 CD2 LEU A 508 30.382 44.710 93.131 1.00 37.66 C ATOM 1467 N TYR A 509 28.884 47.903 91.851 1.00 39.10 N ATOM 1468 CA TYR A 509 29.150 49.011 92.755 1.00 39.80 C ATOM 1469 C TYR A 509 29.136 48.515 94.201 1.00 40.29 C ATOM 1470 O TYR A 509 28.437 47.553 94.515 1.00 40.22 O ATOM 1471 CB TYR A 509 28.076 50.088 92.570 1.00 39.71 C ATOM 1472 CG TYR A 509 28.226 50.922 91.312 1.00 39.89 C ATOM 1473 CD1 TYR A 509 28.698 52.234 91.379 1.00 39.75 C ATOM 1474 CD2 TYR A 509 27.890 50.407 90.054 1.00 39.64 C ATOM 1475 CE1 TYR A 509 28.840 53.010 90.230 1.00 39.56 C ATOM 1476 CE2 TYR A 509 28.030 51.174 88.897 1.00 38.87 C ATOM 1477 CZ TYR A 509 28.505 52.473 88.995 1.00 39.71 C ATOM 1478 OH TYR A 509 28.643 53.244 87.865 1.00 39.86 O ATOM 1479 N LYS A 510 29.919 49.159 95.070 1.00 41.14 N ATOM 1480 CA LYS A 510 29.775 48.972 96.522 1.00 41.86 C ATOM 1481 C LYS A 510 29.113 50.190 97.150 1.00 42.35 C ATOM 1482 O LYS A 510 28.266 50.061 98.026 1.00 42.45 O ATOM 1483 CB LYS A 510 31.108 48.694 97.217 1.00 41.86 C ATOM 1484 CG LYS A 510 30.945 48.005 98.574 1.00 42.23 C ATOM 1485 CD LYS A 510 32.194 48.145 99.433 1.00 43.27 C ATOM 1486 CE LYS A 510 32.377 46.959 100.382 1.00 43.78 C ATOM 1487 NZ LYS A 510 31.374 46.895 101.486 1.00 44.22 N ATOM 1488 N GLY A 511 29.507 51.378 96.712 1.00 42.80 N ATOM 1489 CA GLY A 511 28.849 52.593 97.172 1.00 43.41 C ATOM 1490 C GLY A 511 28.359 53.353 95.968 1.00 43.80 C ATOM 1491 O GLY A 511 27.600 52.822 95.150 1.00 43.93 O ATOM 1492 N ASN A 512 28.801 54.600 95.866 1.00 44.06 N ATOM 1493 CA ASN A 512 28.640 55.381 94.650 1.00 44.35 C ATOM 1494 C ASN A 512 29.834 55.156 93.719 1.00 44.19 C ATOM 1495 O ASN A 512 29.887 55.697 92.608 1.00 44.04 O ATOM 1496 CB ASN A 512 28.495 56.866 94.996 1.00 44.59 C ATOM 1497 CG ASN A 512 27.242 57.156 95.804 1.00 45.35 C ATOM 1498 OD1 ASN A 512 26.153 56.673 95.482 1.00 46.76 O ATOM 1499 ND2 ASN A 512 27.389 57.953 96.856 1.00 45.71 N ATOM 1500 N GLN A 513 30.786 54.352 94.194 1.00 44.07 N ATOM 1501 CA GLN A 513 32.001 54.027 93.455 1.00 44.17 C ATOM 1502 C GLN A 513 31.863 52.675 92.761 1.00 43.91 C ATOM 1503 O GLN A 513 31.132 51.799 93.234 1.00 43.90 O ATOM 1504 CB GLN A 513 33.218 54.018 94.387 1.00 44.45 C ATOM 1505 CG GLN A 513 33.240 52.863 95.395 1.00 45.29 C ATOM 1506 CD GLN A 513 34.648 52.456 95.814 1.00 47.13 C ATOM 1507 OE1 GLN A 513 35.643 52.826 95.176 1.00 47.20 O ATOM 1508 NE2 GLN A 513 34.736 51.677 96.890 1.00 47.65 N ATOM 1509 N LEU A 514 32.578 52.511 91.647 1.00 43.53 N ATOM 1510 CA LEU A 514 32.462 51.313 90.814 1.00 43.01 C ATOM 1511 C LEU A 514 33.038 50.078 91.522 1.00 42.63 C ATOM 1512 O LEU A 514 32.561 49.712 92.605 1.00 42.80 O ATOM 1513 CB LEU A 514 33.092 51.555 89.433 1.00 43.01 C ATOM 1514 CG LEU A 514 32.745 50.683 88.215 1.00 43.12 C ATOM 1515 CD1 LEU A 514 31.290 50.238 88.195 1.00 42.92 C ATOM 1516 CD2 LEU A 514 33.095 51.421 86.924 1.00 43.05 C ATOM 1517 N LEU A 515 34.043 49.449 90.911 1.00 41.83 N ATOM 1518 CA LEU A 515 34.692 48.216 91.394 1.00 41.05 C ATOM 1519 C LEU A 515 35.069 47.341 90.214 1.00 40.26 C ATOM 1520 O LEU A 515 36.246 47.206 89.887 1.00 40.28 O ATOM 1521 CB LEU A 515 33.824 47.410 92.373 1.00 41.19 C ATOM 1522 CG LEU A 515 34.149 47.467 93.871 1.00 41.69 C ATOM 1523 CD1 LEU A 515 32.981 46.934 94.679 1.00 42.03 C ATOM 1524 CD2 LEU A 515 35.417 46.688 94.197 1.00 42.18 C ATOM 1525 N GLY A 516 34.061 46.757 89.571 1.00 39.38 N ATOM 1526 CA GLY A 516 34.281 45.882 88.424 1.00 37.96 C ATOM 1527 C GLY A 516 33.013 45.540 87.671 1.00 36.96 C ATOM 1528 O GLY A 516 32.097 46.362 87.562 1.00 37.01 O ATOM 1529 N ASN A 517 32.960 44.317 87.155 1.00 35.84 N ATOM 1530 CA ASN A 517 31.839 43.868 86.335 1.00 34.59 C ATOM 1531 C ASN A 517 31.652 42.356 86.448 1.00 34.17 C ATOM 1532 O ASN A 517 32.616 41.593 86.343 1.00 33.85 O ATOM 1533 CB ASN A 517 32.046 44.303 84.878 1.00 34.41 C ATOM 1534 CG ASN A 517 30.852 44.008 83.996 1.00 32.96 C ATOM 1535 OD1 ASN A 517 30.587 42.859 83.658 1.00 31.49 O ATOM 1536 ND2 ASN A 517 30.138 45.054 83.598 1.00 31.54 N ATOM 1537 N ILE A 518 30.404 41.936 86.652 1.00 33.65 N ATOM 1538 CA ILE A 518 30.083 40.531 86.941 1.00 33.11 C ATOM 1539 C ILE A 518 30.291 39.570 85.766 1.00 32.83 C ATOM 1540 O ILE A 518 30.252 38.355 85.945 1.00 32.66 O ATOM 1541 CB ILE A 518 28.650 40.371 87.514 1.00 33.12 C ATOM 1542 CG1 ILE A 518 27.605 40.844 86.496 1.00 33.15 C ATOM 1543 CG2 ILE A 518 28.529 41.109 88.837 1.00 32.57 C ATOM 1544 CD1 ILE A 518 26.184 40.446 86.812 1.00 32.82 C ATOM 1545 N TYR A 519 30.509 40.116 84.573 1.00 32.73 N ATOM 1546 CA TYR A 519 30.821 39.295 83.399 1.00 32.71 C ATOM 1547 C TYR A 519 32.336 39.140 83.179 1.00 32.89 C ATOM 1548 O TYR A 519 32.762 38.473 82.232 1.00 33.04 O ATOM 1549 CB TYR A 519 30.151 39.848 82.129 1.00 32.15 C ATOM 1550 CG TYR A 519 28.693 40.221 82.270 1.00 31.53 C ATOM 1551 CD1 TYR A 519 27.779 39.362 82.886 1.00 30.97 C ATOM 1552 CD2 TYR A 519 28.220 41.430 81.768 1.00 31.22 C ATOM 1553 CE1 TYR A 519 26.432 39.709 83.007 1.00 30.51 C ATOM 1554 CE2 TYR A 519 26.878 41.786 81.886 1.00 30.74 C ATOM 1555 CZ TYR A 519 25.993 40.923 82.506 1.00 31.02 C ATOM 1556 OH TYR A 519 24.671 41.285 82.619 1.00 31.14 O ATOM 1557 N PHE A 520 33.136 39.760 84.046 1.00 33.18 N ATOM 1558 CA PHE A 520 34.597 39.650 83.991 1.00 33.68 C ATOM 1559 C PHE A 520 35.022 38.331 84.623 1.00 33.97 C ATOM 1560 O PHE A 520 34.493 37.941 85.664 1.00 34.03 O ATOM 1561 CB PHE A 520 35.262 40.828 84.718 1.00 33.76 C ATOM 1562 CG PHE A 520 35.131 42.163 84.004 1.00 34.02 C ATOM 1563 CD1 PHE A 520 34.382 42.294 82.834 1.00 33.80 C ATOM 1564 CD2 PHE A 520 35.738 43.300 84.531 1.00 34.57 C ATOM 1565 CE1 PHE A 520 34.262 43.523 82.192 1.00 34.23 C ATOM 1566 CE2 PHE A 520 35.623 44.538 83.899 1.00 34.73 C ATOM 1567 CZ PHE A 520 34.886 44.649 82.724 1.00 34.63 C ATOM 1568 N THR A 521 35.968 37.649 83.986 1.00 34.46 N ATOM 1569 CA THR A 521 36.383 36.302 84.392 1.00 35.27 C ATOM 1570 C THR A 521 37.821 36.273 84.924 1.00 35.45 C ATOM 1571 O THR A 521 38.151 35.467 85.794 1.00 35.52 O ATOM 1572 CB THR A 521 36.243 35.309 83.212 1.00 35.33 C ATOM 1573 OG1 THR A 521 34.940 35.447 82.632 1.00 36.70 O ATOM 1574 CG2 THR A 521 36.421 33.862 83.668 1.00 35.85 C ATOM 1575 N THR A 522 38.658 37.170 84.407 1.00 35.73 N ATOM 1576 CA THR A 522 40.078 37.200 84.738 1.00 35.92 C ATOM 1577 C THR A 522 40.465 38.536 85.377 1.00 36.02 C ATOM 1578 O THR A 522 39.880 39.574 85.055 1.00 35.77 O ATOM 1579 CB THR A 522 40.932 36.948 83.471 1.00 35.96 C ATOM 1580 OG1 THR A 522 40.454 35.775 82.801 1.00 35.53 O ATOM 1581 CG2 THR A 522 42.395 36.745 83.825 1.00 36.58 C ATOM 1582 N ASN A 523 41.439 38.488 86.291 1.00 36.10 N ATOM 1583 CA ASN A 523 42.035 39.680 86.918 1.00 36.32 C ATOM 1584 C ASN A 523 40.999 40.682 87.426 1.00 36.45 C ATOM 1585 O ASN A 523 41.085 41.884 87.152 1.00 36.54 O ATOM 1586 CB ASN A 523 43.037 40.359 85.968 1.00 36.25 C ATOM 1587 CG ASN A 523 44.072 39.385 85.408 1.00 36.56 C ATOM 1588 OD1 ASN A 523 44.394 38.371 86.031 1.00 37.31 O ATOM 1589 ND2 ASN A 523 44.592 39.691 84.224 1.00 36.35 N ATOM 1590 N LYS A 524 40.031 40.168 88.177 1.00 36.46 N ATOM 1591 CA LYS A 524 38.869 40.938 88.588 1.00 36.48 C ATOM 1592 C LYS A 524 39.200 41.961 89.661 1.00 36.87 C ATOM 1593 O LYS A 524 39.984 41.693 90.570 1.00 36.78 O ATOM 1594 CB LYS A 524 37.758 40.006 89.074 1.00 36.52 C ATOM 1595 CG LYS A 524 37.164 39.116 87.979 1.00 36.16 C ATOM 1596 CD LYS A 524 36.205 38.074 88.556 1.00 35.90 C ATOM 1597 CE LYS A 524 34.956 38.714 89.151 1.00 34.47 C ATOM 1598 NZ LYS A 524 34.193 39.535 88.162 1.00 33.84 N ATOM 1599 N THR A 525 38.587 43.134 89.533 1.00 37.24 N ATOM 1600 CA THR A 525 38.709 44.212 90.511 1.00 37.48 C ATOM 1601 C THR A 525 37.523 44.212 91.494 1.00 37.34 C ATOM 1602 O THR A 525 37.500 44.989 92.446 1.00 37.42 O ATOM 1603 CB THR A 525 38.836 45.580 89.794 1.00 37.67 C ATOM 1604 OG1 THR A 525 39.767 45.466 88.713 1.00 37.73 O ATOM 1605 CG2 THR A 525 39.322 46.677 90.755 1.00 38.48 C ATOM 1606 N SER A 526 36.549 43.332 91.255 1.00 37.27 N ATOM 1607 CA SER A 526 35.387 43.159 92.135 1.00 37.12 C ATOM 1608 C SER A 526 35.306 41.699 92.581 1.00 36.73 C ATOM 1609 O SER A 526 35.842 40.827 91.903 1.00 37.17 O ATOM 1610 CB SER A 526 34.092 43.565 91.415 1.00 37.28 C ATOM 1611 OG SER A 526 33.626 42.535 90.551 1.00 37.83 O ATOM 1612 N PRO A 527 34.641 41.422 93.718 1.00 36.38 N ATOM 1613 CA PRO A 527 34.566 40.028 94.177 1.00 36.04 C ATOM 1614 C PRO A 527 33.504 39.141 93.499 1.00 35.63 C ATOM 1615 O PRO A 527 33.489 37.931 93.733 1.00 35.58 O ATOM 1616 CB PRO A 527 34.263 40.172 95.673 1.00 35.94 C ATOM 1617 CG PRO A 527 33.524 41.453 95.789 1.00 36.26 C ATOM 1618 CD PRO A 527 33.962 42.347 94.648 1.00 36.37 C ATOM 1619 N PHE A 528 32.643 39.720 92.665 1.00 35.27 N ATOM 1620 CA PHE A 528 31.503 38.970 92.117 1.00 34.92 C ATOM 1621 C PHE A 528 31.518 38.714 90.612 1.00 34.47 C ATOM 1622 O PHE A 528 31.792 39.612 89.815 1.00 34.56 O ATOM 1623 CB PHE A 528 30.181 39.635 92.500 1.00 34.95 C ATOM 1624 CG PHE A 528 29.921 39.660 93.972 1.00 35.46 C ATOM 1625 CD1 PHE A 528 29.482 38.518 94.633 1.00 35.46 C ATOM 1626 CD2 PHE A 528 30.110 40.829 94.702 1.00 35.96 C ATOM 1627 CE1 PHE A 528 29.239 38.538 95.998 1.00 35.79 C ATOM 1628 CE2 PHE A 528 29.871 40.859 96.070 1.00 35.87 C ATOM 1629 CZ PHE A 528 29.433 39.713 96.720 1.00 35.73 C ATOM 1630 N ARG A 529 31.197 37.476 90.247 1.00 33.94 N ATOM 1631 CA ARG A 529 30.994 37.083 88.854 1.00 33.18 C ATOM 1632 C ARG A 529 29.773 36.169 88.727 1.00 32.69 C ATOM 1633 O ARG A 529 29.367 35.524 89.695 1.00 32.65 O ATOM 1634 CB ARG A 529 32.236 36.379 88.298 1.00 33.17 C ATOM 1635 CG ARG A 529 32.566 35.044 88.954 1.00 33.25 C ATOM 1636 CD ARG A 529 33.445 34.198 88.048 1.00 34.49 C ATOM 1637 NE ARG A 529 33.723 32.882 88.624 1.00 35.65 N ATOM 1638 CZ ARG A 529 32.970 31.796 88.453 1.00 36.54 C ATOM 1639 NH1 ARG A 529 31.865 31.838 87.711 1.00 35.55 N ATOM 1640 NH2 ARG A 529 33.328 30.653 89.030 1.00 37.41 N ATOM 1641 N ILE A 530 29.194 36.115 87.531 1.00 31.91 N ATOM 1642 CA ILE A 530 28.122 35.160 87.245 1.00 31.11 C ATOM 1643 C ILE A 530 28.706 33.773 86.990 1.00 30.48 C ATOM 1644 O ILE A 530 29.925 33.589 87.033 1.00 30.43 O ATOM 1645 CB ILE A 530 27.245 35.596 86.043 1.00 31.17 C ATOM 1646 CG1 ILE A 530 28.090 35.765 84.770 1.00 31.17 C ATOM 1647 CG2 ILE A 530 26.482 36.871 86.386 1.00 31.14 C ATOM 1648 CD1 ILE A 530 27.279 35.861 83.468 1.00 31.03 C ATOM 1649 N ALA A 531 27.830 32.807 86.734 1.00 29.68 N ATOM 1650 CA ALA A 531 28.236 31.450 86.374 1.00 28.82 C ATOM 1651 C ALA A 531 28.822 31.394 84.962 1.00 28.17 C ATOM 1652 O ALA A 531 28.340 32.071 84.054 1.00 27.87 O ATOM 1653 CB ALA A 531 27.054 30.498 86.490 1.00 28.75 C ATOM 1654 N LYS A 532 29.858 30.576 84.794 1.00 27.59 N ATOM 1655 CA LYS A 532 30.506 30.387 83.503 1.00 27.27 C ATOM 1656 C LYS A 532 29.610 29.518 82.620 1.00 26.30 C ATOM 1657 O LYS A 532 29.665 28.285 82.655 1.00 26.00 O ATOM 1658 CB LYS A 532 31.889 29.763 83.698 1.00 27.16 C ATOM 1659 CG LYS A 532 32.848 29.905 82.515 1.00 27.98 C ATOM 1660 CD LYS A 532 34.233 29.327 82.882 1.00 28.75 C ATOM 1661 CE LYS A 532 35.103 29.054 81.650 1.00 31.48 C ATOM 1662 NZ LYS A 532 35.776 30.286 81.127 1.00 32.73 N ATOM 1663 N ASP A 533 28.772 30.184 81.833 1.00 25.57 N ATOM 1664 CA ASP A 533 27.760 29.496 81.044 1.00 24.91 C ATOM 1665 C ASP A 533 27.406 30.221 79.746 1.00 24.32 C ATOM 1666 O ASP A 533 27.838 31.351 79.507 1.00 24.30 O ATOM 1667 CB ASP A 533 26.496 29.280 81.885 1.00 24.79 C ATOM 1668 CG ASP A 533 25.710 28.057 81.455 1.00 25.30 C ATOM 1669 OD1 ASP A 533 26.007 27.478 80.388 1.00 25.65 O ATOM 1670 OD2 ASP A 533 24.783 27.666 82.186 1.00 26.36 O ATOM 1671 N SER A 534 26.638 29.529 78.909 1.00 23.67 N ATOM 1672 CA SER A 534 25.991 30.087 77.726 1.00 22.96 C ATOM 1673 C SER A 534 24.668 30.735 78.150 1.00 22.41 C ATOM 1674 O SER A 534 23.948 30.196 78.995 1.00 22.29 O ATOM 1675 CB SER A 534 25.759 28.958 76.701 1.00 22.99 C ATOM 1676 OG SER A 534 24.743 29.262 75.758 1.00 22.76 O ATOM 1677 N TYR A 535 24.360 31.897 77.580 1.00 21.82 N ATOM 1678 CA TYR A 535 23.136 32.629 77.925 1.00 21.52 C ATOM 1679 C TYR A 535 22.393 33.117 76.685 1.00 21.46 C ATOM 1680 O TYR A 535 22.943 33.138 75.579 1.00 21.40 O ATOM 1681 CB TYR A 535 23.445 33.825 78.830 1.00 21.12 C ATOM 1682 CG TYR A 535 23.998 33.463 80.188 1.00 21.17 C ATOM 1683 CD1 TYR A 535 23.161 33.360 81.298 1.00 20.69 C ATOM 1684 CD2 TYR A 535 25.367 33.245 80.372 1.00 20.90 C ATOM 1685 CE1 TYR A 535 23.667 33.037 82.556 1.00 20.50 C ATOM 1686 CE2 TYR A 535 25.881 32.917 81.627 1.00 21.33 C ATOM 1687 CZ TYR A 535 25.024 32.819 82.712 1.00 20.77 C ATOM 1688 OH TYR A 535 25.532 32.493 83.949 1.00 21.04 O ATOM 1689 N LEU A 536 21.145 33.527 76.884 1.00 21.26 N ATOM 1690 CA LEU A 536 20.302 33.978 75.790 1.00 21.36 C ATOM 1691 C LEU A 536 19.622 35.298 76.137 1.00 21.45 C ATOM 1692 O LEU A 536 18.857 35.378 77.098 1.00 21.67 O ATOM 1693 CB LEU A 536 19.266 32.907 75.437 1.00 21.00 C ATOM 1694 CG LEU A 536 18.683 33.018 74.034 1.00 21.29 C ATOM 1695 CD1 LEU A 536 19.771 32.814 72.980 1.00 21.36 C ATOM 1696 CD2 LEU A 536 17.551 32.027 73.847 1.00 20.77 C ATOM 1697 N TRP A 537 19.910 36.321 75.340 1.00 21.34 N ATOM 1698 CA TRP A 537 19.452 37.674 75.596 1.00 21.48 C ATOM 1699 C TRP A 537 18.544 38.178 74.488 1.00 21.41 C ATOM 1700 O TRP A 537 18.598 37.690 73.364 1.00 21.48 O ATOM 1701 CB TRP A 537 20.656 38.608 75.740 1.00 21.74 C ATOM 1702 CG TRP A 537 21.345 38.546 77.082 1.00 21.86 C ATOM 1703 CD1 TRP A 537 21.142 37.627 78.072 1.00 21.36 C ATOM 1704 CD2 TRP A 537 22.372 39.429 77.557 1.00 21.92 C ATOM 1705 NE1 TRP A 537 21.964 37.895 79.138 1.00 22.21 N ATOM 1706 CE2 TRP A 537 22.729 38.995 78.851 1.00 21.85 C ATOM 1707 CE3 TRP A 537 23.019 40.550 77.016 1.00 21.71 C ATOM 1708 CZ2 TRP A 537 23.707 39.641 79.618 1.00 21.83 C ATOM 1709 CZ3 TRP A 537 23.990 41.196 77.779 1.00 21.94 C ATOM 1710 CH2 TRP A 537 24.324 40.738 79.068 1.00 21.57 C ATOM 1711 N MET A 538 17.717 39.165 74.814 1.00 21.49 N ATOM 1712 CA MET A 538 16.820 39.768 73.835 1.00 21.88 C ATOM 1713 C MET A 538 16.675 41.271 74.057 1.00 21.87 C ATOM 1714 O MET A 538 16.595 41.734 75.192 1.00 22.10 O ATOM 1715 CB MET A 538 15.453 39.072 73.878 1.00 21.82 C ATOM 1716 CG MET A 538 14.382 39.685 72.992 1.00 22.02 C ATOM 1717 SD MET A 538 13.535 41.086 73.760 1.00 23.50 S ATOM 1718 CE MET A 538 12.470 40.222 74.922 1.00 21.20 C ATOM 1719 N SER A 539 16.643 42.027 72.966 1.00 22.06 N ATOM 1720 CA SER A 539 16.346 43.460 73.019 1.00 22.23 C ATOM 1721 C SER A 539 15.248 43.790 72.005 1.00 22.62 C ATOM 1722 O SER A 539 15.156 43.145 70.955 1.00 22.72 O ATOM 1723 CB SER A 539 17.602 44.289 72.746 1.00 22.15 C ATOM 1724 OG SER A 539 18.669 43.932 73.617 1.00 21.56 O ATOM 1725 N TYR A 540 14.416 44.782 72.322 1.00 22.96 N ATOM 1726 CA TYR A 540 13.294 45.142 71.453 1.00 23.35 C ATOM 1727 C TYR A 540 13.260 46.609 71.035 1.00 23.56 C ATOM 1728 O TYR A 540 13.809 47.477 71.719 1.00 23.63 O ATOM 1729 CB TYR A 540 11.951 44.732 72.079 1.00 23.36 C ATOM 1730 CG TYR A 540 11.627 45.406 73.399 1.00 23.63 C ATOM 1731 CD1 TYR A 540 11.150 46.719 73.435 1.00 23.15 C ATOM 1732 CD2 TYR A 540 11.775 44.721 74.611 1.00 23.64 C ATOM 1733 CE1 TYR A 540 10.846 47.341 74.639 1.00 23.50 C ATOM 1734 CE2 TYR A 540 11.470 45.333 75.824 1.00 24.11 C ATOM 1735 CZ TYR A 540 11.006 46.648 75.828 1.00 24.09 C ATOM 1736 OH TYR A 540 10.706 47.273 77.014 1.00 23.93 O ATOM 1737 N SER A 541 12.592 46.868 69.914 1.00 23.89 N ATOM 1738 CA SER A 541 12.409 48.217 69.401 1.00 24.33 C ATOM 1739 C SER A 541 10.948 48.509 69.068 1.00 24.73 C ATOM 1740 O SER A 541 10.296 47.741 68.355 1.00 24.68 O ATOM 1741 CB SER A 541 13.264 48.422 68.158 1.00 24.45 C ATOM 1742 OG SER A 541 13.055 49.712 67.622 1.00 25.02 O ATOM 1743 N ASP A 542 10.443 49.627 69.581 1.00 25.11 N ATOM 1744 CA ASP A 542 9.080 50.055 69.280 1.00 25.40 C ATOM 1745 C ASP A 542 9.031 51.241 68.321 1.00 25.74 C ATOM 1746 O ASP A 542 7.955 51.772 68.035 1.00 25.86 O ATOM 1747 CB ASP A 542 8.313 50.365 70.570 1.00 25.32 C ATOM 1748 CG ASP A 542 8.018 49.117 71.393 1.00 25.35 C ATOM 1749 OD1 ASP A 542 7.687 48.063 70.812 1.00 25.13 O ATOM 1750 OD2 ASP A 542 8.105 49.194 72.633 1.00 26.19 O ATOM 1751 N ASP A 543 10.192 51.662 67.824 1.00 26.17 N ATOM 1752 CA ASP A 543 10.230 52.741 66.836 1.00 26.68 C ATOM 1753 C ASP A 543 10.954 52.329 65.552 1.00 26.94 C ATOM 1754 O ASP A 543 11.822 53.050 65.043 1.00 27.13 O ATOM 1755 CB ASP A 543 10.805 54.035 67.434 1.00 26.51 C ATOM 1756 CG ASP A 543 12.203 53.860 68.007 1.00 27.10 C ATOM 1757 OD1 ASP A 543 12.841 52.797 67.811 1.00 26.77 O ATOM 1758 OD2 ASP A 543 12.669 54.811 68.662 1.00 28.02 O ATOM 1759 N ASP A 544 10.587 51.157 65.043 1.00 27.29 N ATOM 1760 CA ASP A 544 11.036 50.684 63.730 1.00 27.81 C ATOM 1761 C ASP A 544 12.555 50.480 63.631 1.00 27.84 C ATOM 1762 O ASP A 544 13.132 50.585 62.550 1.00 27.85 O ATOM 1763 CB ASP A 544 10.517 51.617 62.614 1.00 27.86 C ATOM 1764 CG ASP A 544 10.568 50.977 61.241 1.00 28.21 C ATOM 1765 OD1 ASP A 544 10.112 49.820 61.093 1.00 29.09 O ATOM 1766 OD2 ASP A 544 11.060 51.640 60.306 1.00 28.32 O ATOM 1767 N GLY A 545 13.190 50.185 64.764 1.00 28.04 N ATOM 1768 CA GLY A 545 14.606 49.814 64.787 1.00 28.17 C ATOM 1769 C GLY A 545 15.589 50.926 65.114 1.00 28.42 C ATOM 1770 O GLY A 545 16.804 50.706 65.116 1.00 28.60 O ATOM 1771 N LYS A 546 15.068 52.115 65.400 1.00 28.61 N ATOM 1772 CA LYS A 546 15.896 53.289 65.680 1.00 28.73 C ATOM 1773 C LYS A 546 16.485 53.274 67.095 1.00 28.87 C ATOM 1774 O LYS A 546 17.669 53.558 67.275 1.00 29.14 O ATOM 1775 CB LYS A 546 15.096 54.570 65.428 1.00 28.86 C ATOM 1776 CG LYS A 546 14.695 54.762 63.965 1.00 29.03 C ATOM 1777 CD LYS A 546 13.699 55.894 63.797 1.00 30.05 C ATOM 1778 CE LYS A 546 13.745 56.454 62.383 1.00 30.86 C ATOM 1779 NZ LYS A 546 12.661 57.440 62.127 1.00 31.61 N ATOM 1780 N THR A 547 15.661 52.942 68.090 1.00 28.74 N ATOM 1781 CA THR A 547 16.126 52.807 69.475 1.00 28.54 C ATOM 1782 C THR A 547 15.737 51.441 70.040 1.00 28.43 C ATOM 1783 O THR A 547 14.698 50.882 69.683 1.00 28.29 O ATOM 1784 CB THR A 547 15.572 53.922 70.406 1.00 28.80 C ATOM 1785 OG1 THR A 547 14.136 53.843 70.464 1.00 28.91 O ATOM 1786 CG2 THR A 547 16.009 55.314 69.927 1.00 28.22 C ATOM 1787 N TRP A 548 16.573 50.922 70.933 1.00 28.17 N ATOM 1788 CA TRP A 548 16.426 49.566 71.437 1.00 27.97 C ATOM 1789 C TRP A 548 16.389 49.544 72.949 1.00 27.97 C ATOM 1790 O TRP A 548 16.981 50.404 73.606 1.00 27.87 O ATOM 1791 CB TRP A 548 17.576 48.692 70.933 1.00 28.04 C ATOM 1792 CG TRP A 548 17.528 48.488 69.463 1.00 28.17 C ATOM 1793 CD1 TRP A 548 17.988 49.343 68.502 1.00 28.22 C ATOM 1794 CD2 TRP A 548 16.964 47.367 68.771 1.00 28.20 C ATOM 1795 NE1 TRP A 548 17.753 48.818 67.252 1.00 29.06 N ATOM 1796 CE2 TRP A 548 17.127 47.606 67.387 1.00 28.50 C ATOM 1797 CE3 TRP A 548 16.342 46.180 69.184 1.00 28.65 C ATOM 1798 CZ2 TRP A 548 16.684 46.702 66.410 1.00 28.01 C ATOM 1799 CZ3 TRP A 548 15.906 45.275 68.208 1.00 28.33 C ATOM 1800 CH2 TRP A 548 16.082 45.545 66.841 1.00 27.91 C ATOM 1801 N SER A 549 15.695 48.550 73.495 1.00 27.79 N ATOM 1802 CA SER A 549 15.620 48.372 74.936 1.00 27.72 C ATOM 1803 C SER A 549 16.931 47.797 75.461 1.00 27.56 C ATOM 1804 O SER A 549 17.749 47.284 74.690 1.00 27.59 O ATOM 1805 CB SER A 549 14.454 47.448 75.297 1.00 27.62 C ATOM 1806 OG SER A 549 14.645 46.150 74.752 1.00 28.57 O ATOM 1807 N ALA A 550 17.122 47.905 76.773 1.00 27.43 N ATOM 1808 CA ALA A 550 18.213 47.235 77.476 1.00 27.32 C ATOM 1809 C ALA A 550 17.996 45.725 77.398 1.00 27.25 C ATOM 1810 O ALA A 550 16.849 45.269 77.391 1.00 27.69 O ATOM 1811 CB ALA A 550 18.257 47.692 78.924 1.00 27.21 C ATOM 1812 N PRO A 551 19.086 44.942 77.339 1.00 26.94 N ATOM 1813 CA PRO A 551 18.968 43.493 77.138 1.00 26.66 C ATOM 1814 C PRO A 551 18.143 42.784 78.208 1.00 26.35 C ATOM 1815 O PRO A 551 18.410 42.939 79.401 1.00 26.41 O ATOM 1816 CB PRO A 551 20.425 43.011 77.205 1.00 26.71 C ATOM 1817 CG PRO A 551 21.241 44.207 76.874 1.00 26.71 C ATOM 1818 CD PRO A 551 20.493 45.366 77.454 1.00 26.95 C ATOM 1819 N GLN A 552 17.139 42.025 77.781 1.00 26.07 N ATOM 1820 CA GLN A 552 16.425 41.136 78.689 1.00 25.63 C ATOM 1821 C GLN A 552 17.076 39.777 78.663 1.00 25.18 C ATOM 1822 O GLN A 552 17.300 39.206 77.589 1.00 24.92 O ATOM 1823 CB GLN A 552 14.949 41.001 78.320 1.00 26.09 C ATOM 1824 CG GLN A 552 14.003 41.803 79.196 1.00 27.73 C ATOM 1825 CD GLN A 552 14.043 43.280 78.882 1.00 30.53 C ATOM 1826 OE1 GLN A 552 14.367 43.678 77.760 1.00 32.40 O ATOM 1827 NE2 GLN A 552 13.716 44.105 79.869 1.00 31.19 N ATOM 1828 N ASP A 553 17.387 39.273 79.854 1.00 24.65 N ATOM 1829 CA ASP A 553 17.905 37.931 80.018 1.00 24.03 C ATOM 1830 C ASP A 553 16.726 36.974 80.008 1.00 23.59 C ATOM 1831 O ASP A 553 15.962 36.915 80.968 1.00 23.64 O ATOM 1832 CB ASP A 553 18.660 37.818 81.338 1.00 23.99 C ATOM 1833 CG ASP A 553 19.368 36.485 81.500 1.00 24.33 C ATOM 1834 OD1 ASP A 553 19.552 35.751 80.500 1.00 23.49 O ATOM 1835 OD2 ASP A 553 19.757 36.176 82.642 1.00 25.83 O ATOM 1836 N ILE A 554 16.578 36.228 78.920 1.00 23.09 N ATOM 1837 CA ILE A 554 15.449 35.302 78.771 1.00 22.53 C ATOM 1838 C ILE A 554 15.846 33.855 79.033 1.00 22.09 C ATOM 1839 O ILE A 554 15.003 32.958 78.990 1.00 22.08 O ATOM 1840 CB ILE A 554 14.758 35.439 77.384 1.00 22.65 C ATOM 1841 CG1 ILE A 554 15.726 35.098 76.243 1.00 22.34 C ATOM 1842 CG2 ILE A 554 14.169 36.847 77.225 1.00 22.31 C ATOM 1843 CD1 ILE A 554 15.041 34.674 74.949 1.00 23.41 C ATOM 1844 N THR A 555 17.131 33.654 79.324 1.00 21.80 N ATOM 1845 CA THR A 555 17.732 32.327 79.559 1.00 21.59 C ATOM 1846 C THR A 555 16.886 31.367 80.411 1.00 21.45 C ATOM 1847 O THR A 555 16.579 30.266 79.949 1.00 21.27 O ATOM 1848 CB THR A 555 19.168 32.445 80.164 1.00 21.35 C ATOM 1849 OG1 THR A 555 19.926 33.415 79.432 1.00 21.97 O ATOM 1850 CG2 THR A 555 19.903 31.106 80.142 1.00 21.14 C ATOM 1851 N PRO A 556 16.498 31.780 81.645 1.00 21.63 N ATOM 1852 CA PRO A 556 15.827 30.821 82.541 1.00 21.64 C ATOM 1853 C PRO A 556 14.473 30.332 82.036 1.00 21.70 C ATOM 1854 O PRO A 556 13.992 29.295 82.485 1.00 21.75 O ATOM 1855 CB PRO A 556 15.670 31.601 83.857 1.00 21.58 C ATOM 1856 CG PRO A 556 15.732 33.039 83.468 1.00 21.67 C ATOM 1857 CD PRO A 556 16.636 33.114 82.274 1.00 21.44 C ATOM 1858 N MET A 557 13.870 31.050 81.094 1.00 22.12 N ATOM 1859 CA MET A 557 12.574 30.635 80.541 1.00 22.38 C ATOM 1860 C MET A 557 12.692 29.412 79.627 1.00 22.10 C ATOM 1861 O MET A 557 11.742 28.641 79.483 1.00 22.03 O ATOM 1862 CB MET A 557 11.905 31.780 79.777 1.00 22.16 C ATOM 1863 CG MET A 557 11.863 33.109 80.514 1.00 22.83 C ATOM 1864 SD MET A 557 10.670 34.245 79.779 1.00 23.61 S ATOM 1865 CE MET A 557 11.287 35.833 80.332 1.00 23.16 C ATOM 1866 N VAL A 558 13.862 29.232 79.020 1.00 22.14 N ATOM 1867 CA VAL A 558 14.007 28.288 77.910 1.00 22.04 C ATOM 1868 C VAL A 558 15.125 27.259 78.054 1.00 22.23 C ATOM 1869 O VAL A 558 15.138 26.256 77.333 1.00 21.96 O ATOM 1870 CB VAL A 558 14.193 29.039 76.570 1.00 22.30 C ATOM 1871 CG1 VAL A 558 12.923 29.813 76.211 1.00 21.48 C ATOM 1872 CG2 VAL A 558 15.427 29.970 76.621 1.00 21.72 C ATOM 1873 N LYS A 559 16.054 27.502 78.976 1.00 22.46 N ATOM 1874 CA LYS A 559 17.221 26.632 79.134 1.00 22.60 C ATOM 1875 C LYS A 559 17.074 25.593 80.249 1.00 22.93 C ATOM 1876 O LYS A 559 16.975 25.951 81.416 1.00 23.29 O ATOM 1877 CB LYS A 559 18.475 27.470 79.378 1.00 22.48 C ATOM 1878 CG LYS A 559 19.737 26.674 79.211 1.00 21.49 C ATOM 1879 CD LYS A 559 20.961 27.498 79.438 1.00 19.97 C ATOM 1880 CE LYS A 559 22.140 26.744 78.902 1.00 19.47 C ATOM 1881 NZ LYS A 559 23.324 26.904 79.758 1.00 20.96 N ATOM 1882 N ALA A 560 17.100 24.311 79.882 1.00 23.25 N ATOM 1883 CA ALA A 560 16.967 23.204 80.844 1.00 23.46 C ATOM 1884 C ALA A 560 18.249 22.924 81.648 1.00 23.73 C ATOM 1885 O ALA A 560 19.324 23.423 81.307 1.00 23.93 O ATOM 1886 CB ALA A 560 16.500 21.940 80.130 1.00 23.36 C ATOM 1887 N ASP A 561 18.117 22.115 82.705 1.00 24.04 N ATOM 1888 CA ASP A 561 19.216 21.780 83.624 1.00 24.19 C ATOM 1889 C ASP A 561 20.381 21.078 82.937 1.00 23.90 C ATOM 1890 O ASP A 561 21.529 21.232 83.353 1.00 24.25 O ATOM 1891 CB ASP A 561 18.735 20.863 84.758 1.00 24.46 C ATOM 1892 CG ASP A 561 17.573 21.437 85.545 1.00 26.44 C ATOM 1893 OD1 ASP A 561 17.474 22.681 85.673 1.00 29.36 O ATOM 1894 OD2 ASP A 561 16.754 20.631 86.052 1.00 27.87 O ATOM 1895 N TRP A 562 20.085 20.281 81.913 1.00 23.33 N ATOM 1896 CA TRP A 562 21.116 19.464 81.264 1.00 22.83 C ATOM 1897 C TRP A 562 21.865 20.220 80.174 1.00 22.36 C ATOM 1898 O TRP A 562 22.978 19.831 79.801 1.00 22.06 O ATOM 1899 CB TRP A 562 20.513 18.188 80.680 1.00 22.60 C ATOM 1900 CG TRP A 562 19.403 18.437 79.698 1.00 22.81 C ATOM 1901 CD1 TRP A 562 18.067 18.453 79.968 1.00 22.92 C ATOM 1902 CD2 TRP A 562 19.532 18.711 78.292 1.00 22.95 C ATOM 1903 NE1 TRP A 562 17.354 18.709 78.823 1.00 22.94 N ATOM 1904 CE2 TRP A 562 18.225 18.867 77.778 1.00 22.62 C ATOM 1905 CE3 TRP A 562 20.623 18.822 77.415 1.00 22.37 C ATOM 1906 CZ2 TRP A 562 17.974 19.133 76.428 1.00 22.30 C ATOM 1907 CZ3 TRP A 562 20.373 19.086 76.069 1.00 22.53 C ATOM 1908 CH2 TRP A 562 19.057 19.241 75.591 1.00 22.74 C ATOM 1909 N MET A 563 21.238 21.285 79.668 1.00 21.57 N ATOM 1910 CA MET A 563 21.751 22.029 78.518 1.00 20.97 C ATOM 1911 C MET A 563 23.093 22.673 78.838 1.00 20.95 C ATOM 1912 O MET A 563 23.258 23.317 79.884 1.00 20.81 O ATOM 1913 CB MET A 563 20.730 23.073 78.025 1.00 20.70 C ATOM 1914 CG MET A 563 19.489 22.478 77.311 1.00 20.52 C ATOM 1915 SD MET A 563 18.203 23.686 76.860 1.00 20.70 S ATOM 1916 CE MET A 563 16.977 22.648 76.072 1.00 20.16 C ATOM 1917 N LYS A 564 24.063 22.457 77.952 1.00 20.57 N ATOM 1918 CA LYS A 564 25.328 23.162 78.039 1.00 20.24 C ATOM 1919 C LYS A 564 25.184 24.452 77.238 1.00 19.66 C ATOM 1920 O LYS A 564 24.902 25.511 77.802 1.00 19.66 O ATOM 1921 CB LYS A 564 26.485 22.299 77.526 1.00 20.36 C ATOM 1922 CG LYS A 564 27.862 22.832 77.912 1.00 20.67 C ATOM 1923 CD LYS A 564 28.993 21.905 77.470 1.00 20.79 C ATOM 1924 CE LYS A 564 30.272 22.261 78.221 1.00 22.25 C ATOM 1925 NZ LYS A 564 31.449 21.492 77.743 1.00 24.17 N ATOM 1926 N PHE A 565 25.362 24.353 75.926 1.00 18.86 N ATOM 1927 CA PHE A 565 25.126 25.476 75.040 1.00 18.48 C ATOM 1928 C PHE A 565 23.655 25.578 74.645 1.00 18.46 C ATOM 1929 O PHE A 565 23.008 24.572 74.354 1.00 18.37 O ATOM 1930 CB PHE A 565 25.992 25.364 73.780 1.00 18.08 C ATOM 1931 CG PHE A 565 25.680 26.402 72.733 1.00 17.18 C ATOM 1932 CD1 PHE A 565 26.076 27.723 72.901 1.00 16.42 C ATOM 1933 CD2 PHE A 565 24.985 26.056 71.581 1.00 16.53 C ATOM 1934 CE1 PHE A 565 25.789 28.686 71.932 1.00 16.62 C ATOM 1935 CE2 PHE A 565 24.688 27.014 70.606 1.00 17.15 C ATOM 1936 CZ PHE A 565 25.098 28.330 70.780 1.00 16.71 C ATOM 1937 N LEU A 566 23.140 26.804 74.640 1.00 18.37 N ATOM 1938 CA LEU A 566 21.879 27.119 73.977 1.00 18.25 C ATOM 1939 C LEU A 566 22.048 28.453 73.272 1.00 18.28 C ATOM 1940 O LEU A 566 22.221 29.489 73.924 1.00 18.49 O ATOM 1941 CB LEU A 566 20.715 27.182 74.973 1.00 18.09 C ATOM 1942 CG LEU A 566 19.424 27.841 74.459 1.00 17.66 C ATOM 1943 CD1 LEU A 566 18.679 26.951 73.469 1.00 18.03 C ATOM 1944 CD2 LEU A 566 18.528 28.215 75.614 1.00 17.22 C ATOM 1945 N GLY A 567 22.004 28.420 71.944 1.00 18.21 N ATOM 1946 CA GLY A 567 22.167 29.630 71.139 1.00 18.37 C ATOM 1947 C GLY A 567 21.253 29.676 69.933 1.00 18.34 C ATOM 1948 O GLY A 567 20.693 28.661 69.530 1.00 18.16 O ATOM 1949 N VAL A 568 21.108 30.864 69.358 1.00 18.41 N ATOM 1950 CA VAL A 568 20.221 31.063 68.222 1.00 18.52 C ATOM 1951 C VAL A 568 20.773 30.433 66.947 1.00 18.88 C ATOM 1952 O VAL A 568 21.996 30.273 66.790 1.00 18.51 O ATOM 1953 CB VAL A 568 19.935 32.568 67.954 1.00 18.65 C ATOM 1954 CG1 VAL A 568 19.030 33.175 69.041 1.00 18.14 C ATOM 1955 CG2 VAL A 568 21.222 33.354 67.819 1.00 18.61 C ATOM 1956 N GLY A 569 19.852 30.050 66.062 1.00 19.03 N ATOM 1957 CA GLY A 569 20.164 29.767 64.667 1.00 19.11 C ATOM 1958 C GLY A 569 19.998 31.082 63.929 1.00 19.34 C ATOM 1959 O GLY A 569 18.893 31.419 63.495 1.00 19.18 O ATOM 1960 N PRO A 570 21.100 31.834 63.774 1.00 19.64 N ATOM 1961 CA PRO A 570 21.038 33.244 63.381 1.00 19.73 C ATOM 1962 C PRO A 570 20.394 33.470 62.022 1.00 19.99 C ATOM 1963 O PRO A 570 20.418 32.585 61.157 1.00 19.62 O ATOM 1964 CB PRO A 570 22.507 33.659 63.337 1.00 19.84 C ATOM 1965 CG PRO A 570 23.258 32.379 63.134 1.00 19.84 C ATOM 1966 CD PRO A 570 22.491 31.372 63.924 1.00 19.69 C ATOM 1967 N GLY A 571 19.832 34.662 61.851 1.00 20.05 N ATOM 1968 CA GLY A 571 19.096 35.010 60.654 1.00 20.46 C ATOM 1969 C GLY A 571 17.796 35.670 61.046 1.00 20.88 C ATOM 1970 O GLY A 571 17.756 36.425 62.021 1.00 20.87 O ATOM 1971 N THR A 572 16.732 35.373 60.298 1.00 21.17 N ATOM 1972 CA THR A 572 15.439 36.020 60.496 1.00 21.59 C ATOM 1973 C THR A 572 14.352 35.017 60.868 1.00 21.72 C ATOM 1974 O THR A 572 14.093 34.066 60.123 1.00 21.78 O ATOM 1975 CB THR A 572 15.030 36.832 59.248 1.00 21.77 C ATOM 1976 OG1 THR A 572 16.008 37.852 59.014 1.00 22.63 O ATOM 1977 CG2 THR A 572 13.658 37.496 59.431 1.00 21.73 C ATOM 1978 N GLY A 573 13.725 35.240 62.025 1.00 21.63 N ATOM 1979 CA GLY A 573 12.659 34.365 62.527 1.00 21.49 C ATOM 1980 C GLY A 573 11.338 34.645 61.836 1.00 21.48 C ATOM 1981 O GLY A 573 11.267 35.518 60.962 1.00 21.46 O ATOM 1982 N ILE A 574 10.291 33.912 62.223 1.00 21.21 N ATOM 1983 CA ILE A 574 8.959 34.090 61.626 1.00 21.09 C ATOM 1984 C ILE A 574 7.836 34.216 62.652 1.00 21.28 C ATOM 1985 O ILE A 574 7.971 33.786 63.801 1.00 21.42 O ATOM 1986 CB ILE A 574 8.587 32.940 60.639 1.00 20.99 C ATOM 1987 CG1 ILE A 574 8.234 31.657 61.409 1.00 20.81 C ATOM 1988 CG2 ILE A 574 9.695 32.739 59.595 1.00 20.50 C ATOM 1989 CD1 ILE A 574 7.649 30.541 60.573 1.00 20.89 C ATOM 1990 N VAL A 575 6.728 34.817 62.222 1.00 21.33 N ATOM 1991 CA VAL A 575 5.475 34.772 62.970 1.00 21.17 C ATOM 1992 C VAL A 575 4.517 33.868 62.190 1.00 21.11 C ATOM 1993 O VAL A 575 4.367 34.031 60.983 1.00 20.97 O ATOM 1994 CB VAL A 575 4.885 36.192 63.195 1.00 21.17 C ATOM 1995 CG1 VAL A 575 3.508 36.129 63.864 1.00 21.09 C ATOM 1996 CG2 VAL A 575 5.829 37.022 64.041 1.00 20.92 C ATOM 1997 N LEU A 576 3.907 32.895 62.864 1.00 21.34 N ATOM 1998 CA LEU A 576 2.966 31.990 62.192 1.00 21.68 C ATOM 1999 C LEU A 576 1.737 32.767 61.721 1.00 22.12 C ATOM 2000 O LEU A 576 1.121 33.507 62.496 1.00 21.91 O ATOM 2001 CB LEU A 576 2.566 30.807 63.087 1.00 21.37 C ATOM 2002 CG LEU A 576 3.671 29.884 63.622 1.00 20.82 C ATOM 2003 CD1 LEU A 576 3.082 28.812 64.518 1.00 19.76 C ATOM 2004 CD2 LEU A 576 4.488 29.251 62.500 1.00 19.90 C ATOM 2005 N ARG A 577 1.409 32.610 60.441 1.00 22.62 N ATOM 2006 CA ARG A 577 0.344 33.387 59.809 1.00 23.46 C ATOM 2007 C ARG A 577 −1.004 32.660 59.707 1.00 23.61 C ATOM 2008 O ARG A 577 −2.019 33.291 59.406 1.00 23.71 O ATOM 2009 CB ARG A 577 0.792 33.882 58.430 1.00 23.57 C ATOM 2010 CG ARG A 577 1.220 32.771 57.508 1.00 24.18 C ATOM 2011 CD ARG A 577 1.674 33.259 56.134 1.00 24.14 C ATOM 2012 NE ARG A 577 1.772 32.096 55.251 1.00 25.19 N ATOM 2013 CZ ARG A 577 2.807 31.261 55.211 1.00 24.64 C ATOM 2014 NH1 ARG A 577 3.874 31.463 55.975 1.00 24.29 N ATOM 2015 NH2 ARG A 577 2.777 30.223 54.394 1.00 25.16 N ATOM 2016 N ASN A 578 −1.020 31.352 59.969 1.00 23.82 N ATOM 2017 CA ASN A 578 −2.255 30.566 59.874 1.00 24.26 C ATOM 2018 C ASN A 578 −2.317 29.348 60.813 1.00 24.58 C ATOM 2019 O ASN A 578 −1.302 28.932 61.373 1.00 24.56 O ATOM 2020 CB ASN A 578 −2.493 30.137 58.423 1.00 24.09 C ATOM 2021 CG ASN A 578 −1.512 29.092 57.960 1.00 24.12 C ATOM 2022 OD1 ASN A 578 −1.507 27.966 58.463 1.00 25.12 O ATOM 2023 ND2 ASN A 578 −0.679 29.448 56.990 1.00 23.31 N ATOM 2024 N GLY A 579 −3.510 28.773 60.964 1.00 24.89 N ATOM 2025 CA GLY A 579 −3.706 27.614 61.836 1.00 25.08 C ATOM 2026 C GLY A 579 −3.953 28.038 63.275 1.00 25.66 C ATOM 2027 O GLY A 579 −4.004 29.240 63.571 1.00 25.92 O ATOM 2028 N PRO A 580 −4.108 27.060 64.186 1.00 25.76 N ATOM 2029 CA PRO A 580 −4.485 27.359 65.575 1.00 25.83 C ATOM 2030 C PRO A 580 −3.392 28.005 66.439 1.00 25.99 C ATOM 2031 O PRO A 580 −3.665 28.376 67.587 1.00 26.04 O ATOM 2032 CB PRO A 580 −4.888 25.988 66.137 1.00 25.87 C ATOM 2033 CG PRO A 580 −4.175 24.996 65.290 1.00 25.83 C ATOM 2034 CD PRO A 580 −3.958 25.613 63.941 1.00 25.80 C ATOM 2035 N HIS A 581 −2.180 28.144 65.900 1.00 25.90 N ATOM 2036 CA HIS A 581 −1.070 28.768 66.635 1.00 25.74 C ATOM 2037 C HIS A 581 −0.619 30.080 65.980 1.00 25.62 C ATOM 2038 O HIS A 581 0.438 30.623 66.307 1.00 25.64 O ATOM 2039 CB HIS A 581 0.106 27.796 66.771 1.00 25.66 C ATOM 2040 CG HIS A 581 −0.269 26.468 67.358 1.00 26.37 C ATOM 2041 ND1 HIS A 581 −0.164 25.284 66.656 1.00 26.76 N ATOM 2042 CD2 HIS A 581 −0.746 26.136 68.582 1.00 26.38 C ATOM 2043 CE1 HIS A 581 −0.568 24.284 67.418 1.00 26.70 C ATOM 2044 NE2 HIS A 581 −0.924 24.773 68.593 1.00 27.30 N ATOM 2045 N LYS A 582 −1.439 30.572 65.052 1.00 25.31 N ATOM 2046 CA LYS A 582 −1.219 31.841 64.358 1.00 24.93 C ATOM 2047 C LYS A 582 −0.881 32.950 65.346 1.00 24.26 C ATOM 2048 O LYS A 582 −1.552 33.107 66.366 1.00 24.34 O ATOM 2049 CB LYS A 582 −2.469 32.195 63.542 1.00 24.85 C ATOM 2050 CG LYS A 582 −2.434 33.516 62.776 1.00 25.44 C ATOM 2051 CD LYS A 582 −3.838 33.829 62.233 1.00 25.80 C ATOM 2052 CE LYS A 582 −3.886 35.105 61.390 1.00 27.57 C ATOM 2053 NZ LYS A 582 −3.303 36.285 62.075 1.00 28.30 N ATOM 2054 N GLY A 583 0.169 33.707 65.043 1.00 23.76 N ATOM 2055 CA GLY A 583 0.624 34.783 65.917 1.00 22.91 C ATOM 2056 C GLY A 583 1.778 34.356 66.808 1.00 22.58 C ATOM 2057 O GLY A 583 2.388 35.192 67.477 1.00 22.36 O ATOM 2058 N ARG A 584 2.063 33.052 66.830 1.00 22.27 N ATOM 2059 CA ARG A 584 3.231 32.517 67.538 1.00 21.91 C ATOM 2060 C ARG A 584 4.535 32.937 66.861 1.00 21.53 C ATOM 2061 O ARG A 584 4.687 32.809 65.641 1.00 21.33 O ATOM 2062 CB ARG A 584 3.166 30.994 67.622 1.00 21.98 C ATOM 2063 CG ARG A 584 4.369 30.351 68.291 1.00 22.52 C ATOM 2064 CD ARG A 584 4.218 28.853 68.360 1.00 22.64 C ATOM 2065 NE ARG A 584 3.297 28.458 69.421 1.00 23.70 N ATOM 2066 CZ ARG A 584 2.758 27.246 69.530 1.00 23.67 C ATOM 2067 NH1 ARG A 584 3.039 26.302 68.640 1.00 22.10 N ATOM 2068 NH2 ARG A 584 1.931 26.982 70.533 1.00 24.49 N ATOM 2069 N ILE A 585 5.463 33.435 67.672 1.00 20.94 N ATOM 2070 CA ILE A 585 6.784 33.823 67.207 1.00 20.71 C ATOM 2071 C ILE A 585 7.712 32.618 67.297 1.00 20.41 C ATOM 2072 O ILE A 585 7.761 31.962 68.327 1.00 20.72 O ATOM 2073 CB ILE A 585 7.359 34.989 68.049 1.00 20.62 C ATOM 2074 CG1 ILE A 585 6.416 36.198 68.002 1.00 20.69 C ATOM 2075 CG2 ILE A 585 8.769 35.355 67.578 1.00 20.07 C ATOM 2076 CD1 ILE A 585 6.782 37.323 68.971 1.00 21.07 C ATOM 2077 N LEU A 586 8.430 32.322 66.217 1.00 20.13 N ATOM 2078 CA LEU A 586 9.403 31.229 66.214 1.00 19.91 C ATOM 2079 C LEU A 586 10.822 31.743 66.014 1.00 19.80 C ATOM 2080 O LEU A 586 11.101 32.484 65.063 1.00 20.11 O ATOM 2081 CB LEU A 586 9.071 30.190 65.137 1.00 19.96 C ATOM 2082 CG LEU A 586 7.706 29.494 65.164 1.00 19.90 C ATOM 2083 CD1 LEU A 586 7.648 28.439 64.074 1.00 19.88 C ATOM 2084 CD2 LEU A 586 7.437 28.874 66.517 1.00 20.06 C ATOM 2085 N ILE A 587 11.704 31.351 66.927 1.00 19.17 N ATOM 2086 CA ILE A 587 13.117 31.688 66.863 1.00 18.50 C ATOM 2087 C ILE A 587 13.894 30.384 66.806 1.00 18.40 C ATOM 2088 O ILE A 587 13.836 29.593 67.743 1.00 18.34 O ATOM 2089 CB ILE A 587 13.576 32.476 68.120 1.00 18.32 C ATOM 2090 CG1 ILE A 587 12.623 33.640 68.441 1.00 18.13 C ATOM 2091 CG2 ILE A 587 15.024 32.918 67.982 1.00 17.75 C ATOM 2092 CD1 ILE A 587 12.569 34.754 67.398 1.00 17.34 C ATOM 2093 N PRO A 588 14.602 30.134 65.696 1.00 18.50 N ATOM 2094 CA PRO A 588 15.435 28.927 65.607 1.00 18.31 C ATOM 2095 C PRO A 588 16.582 28.971 66.614 1.00 18.11 C ATOM 2096 O PRO A 588 17.202 30.028 66.804 1.00 18.36 O ATOM 2097 CB PRO A 588 15.989 28.982 64.177 1.00 18.21 C ATOM 2098 CG PRO A 588 15.062 29.917 63.433 1.00 18.51 C ATOM 2099 CD PRO A 588 14.654 30.932 64.457 1.00 18.57 C ATOM 2100 N VAL A 589 16.836 27.840 67.266 1.00 17.61 N ATOM 2101 CA VAL A 589 17.930 27.711 68.224 1.00 17.23 C ATOM 2102 C VAL A 589 18.545 26.311 68.147 1.00 17.10 C ATOM 2103 O VAL A 589 18.024 25.423 67.464 1.00 16.74 O ATOM 2104 CB VAL A 589 17.481 27.987 69.693 1.00 17.17 C ATOM 2105 CG1 VAL A 589 16.866 29.376 69.851 1.00 17.28 C ATOM 2106 CG2 VAL A 589 16.514 26.927 70.184 1.00 17.84 C ATOM 2107 N TYR A 590 19.655 26.122 68.852 1.00 17.03 N ATOM 2108 CA TYR A 590 20.240 24.801 69.003 1.00 17.44 C ATOM 2109 C TYR A 590 21.027 24.646 70.291 1.00 17.67 C ATOM 2110 O TYR A 590 21.468 25.628 70.891 1.00 17.46 O ATOM 2111 CB TYR A 590 21.073 24.394 67.777 1.00 17.27 C ATOM 2112 CG TYR A 590 22.323 25.194 67.535 1.00 17.42 C ATOM 2113 CD1 TYR A 590 22.260 26.497 67.018 1.00 17.48 C ATOM 2114 CD2 TYR A 590 23.575 24.640 67.781 1.00 16.63 C ATOM 2115 CE1 TYR A 590 23.419 27.233 66.776 1.00 16.90 C ATOM 2116 CE2 TYR A 590 24.736 25.360 67.537 1.00 17.04 C ATOM 2117 CZ TYR A 590 24.652 26.655 67.034 1.00 17.25 C ATOM 2118 OH TYR A 590 25.810 27.366 66.795 1.00 18.08 O ATOM 2119 N THR A 591 21.188 23.393 70.706 1.00 18.22 N ATOM 2120 CA THR A 591 21.793 23.069 71.992 1.00 18.65 C ATOM 2121 C THR A 591 22.931 22.063 71.860 1.00 19.26 C ATOM 2122 O THR A 591 23.021 21.335 70.866 1.00 19.63 O ATOM 2123 CB THR A 591 20.752 22.470 72.969 1.00 18.43 C ATOM 2124 OG1 THR A 591 20.208 21.269 72.408 1.00 18.34 O ATOM 2125 CG2 THR A 591 19.627 23.456 73.252 1.00 17.97 C ATOM 2126 N THR A 592 23.800 22.039 72.868 1.00 19.51 N ATOM 2127 CA THR A 592 24.727 20.938 73.065 1.00 19.73 C ATOM 2128 C THR A 592 24.473 20.380 74.457 1.00 20.07 C ATOM 2129 O THR A 592 23.892 21.065 75.314 1.00 19.74 O ATOM 2130 CB THR A 592 26.210 21.369 72.935 1.00 19.96 C ATOM 2131 OG1 THR A 592 26.581 22.192 74.049 1.00 20.26 O ATOM 2132 CG2 THR A 592 26.450 22.130 71.635 1.00 19.54 C ATOM 2133 N ASN A 593 24.878 19.131 74.673 1.00 20.44 N ATOM 2134 CA ASN A 593 24.787 18.514 75.992 1.00 20.95 C ATOM 2135 C ASN A 593 26.169 18.265 76.582 1.00 21.40 C ATOM 2136 O ASN A 593 27.185 18.496 75.918 1.00 21.65 O ATOM 2137 CB ASN A 593 23.958 17.224 75.953 1.00 20.88 C ATOM 2138 CG ASN A 593 24.593 16.137 75.112 1.00 20.73 C ATOM 2139 OD1 ASN A 593 25.815 16.024 75.033 1.00 21.63 O ATOM 2140 ND2 ASN A 593 23.760 15.324 74.479 1.00 19.73 N ATOM 2141 N ASN A 594 26.201 17.788 77.823 1.00 21.73 N ATOM 2142 CA ASN A 594 27.455 17.592 78.546 1.00 21.83 C ATOM 2143 C ASN A 594 28.127 16.264 78.212 1.00 22.25 C ATOM 2144 O ASN A 594 29.251 16.004 78.642 1.00 22.47 O ATOM 2145 CB ASN A 594 27.224 17.724 80.057 1.00 21.54 C ATOM 2146 CG ASN A 594 26.924 19.156 80.486 1.00 21.49 C ATOM 2147 OD1 ASN A 594 27.625 20.101 80.101 1.00 21.64 O ATOM 2148 ND2 ASN A 594 25.891 19.322 81.306 1.00 21.20 N ATOM 2149 N VAL A 595 27.437 15.427 77.439 1.00 22.76 N ATOM 2150 CA VAL A 595 27.965 14.116 77.061 1.00 23.03 C ATOM 2151 C VAL A 595 28.971 14.242 75.929 1.00 23.41 C ATOM 2152 O VAL A 595 30.038 13.623 75.976 1.00 23.84 O ATOM 2153 CB VAL A 595 26.838 13.099 76.694 1.00 23.07 C ATOM 2154 CG1 VAL A 595 27.423 11.773 76.170 1.00 22.63 C ATOM 2155 CG2 VAL A 595 25.962 12.826 77.898 1.00 22.53 C ATOM 2156 N SER A 596 28.644 15.047 74.921 1.00 23.60 N ATOM 2157 CA SER A 596 29.529 15.195 73.761 1.00 23.84 C ATOM 2158 C SER A 596 29.772 16.637 73.285 1.00 23.96 C ATOM 2159 O SER A 596 30.584 16.858 72.395 1.00 24.21 O ATOM 2160 CB SER A 596 29.043 14.316 72.600 1.00 23.74 C ATOM 2161 OG SER A 596 27.714 14.631 72.233 1.00 23.37 O ATOM 2162 N HIS A 597 29.083 17.605 73.886 1.00 24.27 N ATOM 2163 CA HIS A 597 29.221 19.035 73.535 1.00 24.28 C ATOM 2164 C HIS A 597 29.168 19.301 72.014 1.00 24.53 C ATOM 2165 O HIS A 597 28.119 19.102 71.396 1.00 24.93 O ATOM 2166 CB HIS A 597 30.456 19.656 74.208 1.00 24.04 C ATOM 2167 CG HIS A 597 30.575 21.136 74.017 1.00 24.17 C ATOM 2168 ND1 HIS A 597 29.504 21.996 74.152 1.00 24.60 N ATOM 2169 CD2 HIS A 597 31.642 21.910 73.710 1.00 23.89 C ATOM 2170 CE1 HIS A 597 29.906 23.235 73.928 1.00 24.14 C ATOM 2171 NE2 HIS A 597 31.199 23.210 73.658 1.00 24.20 N ATOM 2172 N LEU A 598 30.285 19.723 71.418 1.00 24.22 N ATOM 2173 CA LEU A 598 30.323 20.075 70.002 1.00 23.93 C ATOM 2174 C LEU A 598 30.669 18.895 69.092 1.00 24.07 C ATOM 2175 O LEU A 598 30.557 18.997 67.866 1.00 23.97 O ATOM 2176 CB LEU A 598 31.290 21.239 69.759 1.00 23.70 C ATOM 2177 CG LEU A 598 30.799 22.639 70.152 1.00 23.89 C ATOM 2178 CD1 LEU A 598 31.941 23.638 70.137 1.00 23.90 C ATOM 2179 CD2 LEU A 598 29.666 23.119 69.243 1.00 23.37 C ATOM 2180 N ASN A 599 31.081 17.779 69.689 1.00 23.95 N ATOM 2181 CA ASN A 599 31.466 16.603 68.916 1.00 24.06 C ATOM 2182 C ASN A 599 30.305 15.806 68.332 1.00 23.68 C ATOM 2183 O ASN A 599 30.387 15.356 67.188 1.00 23.88 O ATOM 2184 CB ASN A 599 32.423 15.707 69.705 1.00 24.38 C ATOM 2185 CG ASN A 599 33.880 16.134 69.538 1.00 25.66 C ATOM 2186 OD1 ASN A 599 34.585 15.634 68.655 1.00 27.02 O ATOM 2187 ND2 ASN A 599 34.323 17.085 70.358 1.00 25.44 N ATOM 2188 N GLY A 600 29.229 15.638 69.099 1.00 23.13 N ATOM 2189 CA GLY A 600 28.077 14.886 68.621 1.00 22.08 C ATOM 2190 C GLY A 600 26.734 15.124 69.285 1.00 21.59 C ATOM 2191 O GLY A 600 25.932 14.194 69.378 1.00 21.68 O ATOM 2192 N SER A 601 26.462 16.354 69.721 1.00 21.04 N ATOM 2193 CA SER A 601 25.170 16.655 70.356 1.00 20.62 C ATOM 2194 C SER A 601 24.442 17.895 69.843 1.00 20.40 C ATOM 2195 O SER A 601 23.375 18.245 70.361 1.00 20.39 O ATOM 2196 CB SER A 601 25.312 16.749 71.876 1.00 20.53 C ATOM 2197 OG SER A 601 25.867 17.992 72.267 1.00 20.21 O ATOM 2198 N GLN A 602 25.001 18.565 68.844 1.00 20.05 N ATOM 2199 CA GLN A 602 24.341 19.750 68.296 1.00 20.01 C ATOM 2200 C GLN A 602 22.926 19.411 67.828 1.00 19.79 C ATOM 2201 O GLN A 602 22.733 18.530 66.993 1.00 20.05 O ATOM 2202 CB GLN A 602 25.175 20.386 67.190 1.00 19.72 C ATOM 2203 CG GLN A 602 26.334 21.208 67.727 1.00 19.95 C ATOM 2204 CD GLN A 602 27.285 21.674 66.642 1.00 20.59 C ATOM 2205 OE1 GLN A 602 27.205 22.816 66.183 1.00 21.19 O ATOM 2206 NE2 GLN A 602 28.191 20.791 66.224 1.00 19.21 N ATOM 2207 N SER A 603 21.936 20.089 68.401 1.00 19.56 N ATOM 2208 CA SER A 603 20.533 19.733 68.167 1.00 19.37 C ATOM 2209 C SER A 603 19.646 20.949 67.957 1.00 19.29 C ATOM 2210 O SER A 603 19.533 21.806 68.838 1.00 19.38 O ATOM 2211 CB SER A 603 20.000 18.879 69.319 1.00 19.30 C ATOM 2212 OG SER A 603 20.629 17.604 69.340 1.00 18.84 O ATOM 2213 N SER A 604 19.023 21.007 66.783 1.00 19.00 N ATOM 2214 CA SER A 604 18.105 22.080 66.418 1.00 18.78 C ATOM 2215 C SER A 604 16.766 21.994 67.142 1.00 18.70 C ATOM 2216 O SER A 604 16.241 20.900 67.395 1.00 18.51 O ATOM 2217 CB SER A 604 17.835 22.055 64.912 1.00 18.85 C ATOM 2218 OG SER A 604 19.034 22.112 64.167 1.00 18.95 O ATOM 2219 N ARG A 605 16.227 23.165 67.471 1.00 18.56 N ATOM 2220 CA ARG A 605 14.838 23.306 67.904 1.00 18.27 C ATOM 2221 C ARG A 605 14.392 24.749 67.676 1.00 18.52 C ATOM 2222 O ARG A 605 15.148 25.557 67.127 1.00 18.41 O ATOM 2223 CB ARG A 605 14.653 22.882 69.376 1.00 18.20 C ATOM 2224 CG ARG A 605 15.318 23.780 70.422 1.00 17.99 C ATOM 2225 CD ARG A 605 14.961 23.349 71.850 1.00 17.59 C ATOM 2226 NE ARG A 605 15.634 22.106 72.209 1.00 16.04 N ATOM 2227 CZ ARG A 605 15.308 21.317 73.230 1.00 16.40 C ATOM 2228 NH1 ARG A 605 14.291 21.613 74.034 1.00 14.56 N ATOM 2229 NH2 ARG A 605 16.014 20.213 73.448 1.00 16.98 N ATOM 2230 N ILE A 606 13.167 25.069 68.086 1.00 18.50 N ATOM 2231 CA ILE A 606 12.734 26.456 68.146 1.00 18.74 C ATOM 2232 C ILE A 606 12.387 26.840 69.581 1.00 18.93 C ATOM 2233 O ILE A 606 12.044 25.984 70.396 1.00 19.22 O ATOM 2234 CB ILE A 606 11.528 26.755 67.195 1.00 18.61 C ATOM 2235 CG1 ILE A 606 10.289 25.927 67.567 1.00 19.01 C ATOM 2236 CG2 ILE A 606 11.909 26.504 65.735 1.00 18.48 C ATOM 2237 CD1 ILE A 606 9.402 26.540 68.640 1.00 18.43 C ATOM 2238 N ILE A 607 12.507 28.126 69.887 1.00 19.08 N ATOM 2239 CA ILE A 607 11.836 28.695 71.040 1.00 19.35 C ATOM 2240 C ILE A 607 10.726 29.570 70.480 1.00 19.74 C ATOM 2241 O ILE A 607 10.815 30.026 69.337 1.00 19.52 O ATOM 2242 CB ILE A 607 12.778 29.493 72.008 1.00 19.29 C ATOM 2243 CG1 ILE A 607 13.474 30.659 71.299 1.00 19.06 C ATOM 2244 CG2 ILE A 607 13.784 28.558 72.674 1.00 19.19 C ATOM 2245 CD1 ILE A 607 14.048 31.712 72.243 1.00 19.16 C ATOM 2246 N TYR A 608 9.680 29.779 71.276 1.00 20.27 N ATOM 2247 CA TYR A 608 8.483 30.468 70.814 1.00 20.83 C ATOM 2248 C TYR A 608 7.835 31.353 71.878 1.00 21.25 C ATOM 2249 O TYR A 608 8.082 31.186 73.077 1.00 21.22 O ATOM 2250 CB TYR A 608 7.469 29.452 70.258 1.00 21.21 C ATOM 2251 CG TYR A 608 6.839 28.527 71.290 1.00 21.19 C ATOM 2252 CD1 TYR A 608 7.448 27.322 71.639 1.00 21.34 C ATOM 2253 CD2 TYR A 608 5.627 28.850 71.894 1.00 20.57 C ATOM 2254 CE1 TYR A 608 6.873 26.470 72.582 1.00 21.23 C ATOM 2255 CE2 TYR A 608 5.042 28.006 72.831 1.00 20.89 C ATOM 2256 CZ TYR A 608 5.668 26.820 73.170 1.00 21.45 C ATOM 2257 OH TYR A 608 5.087 25.983 74.096 1.00 21.17 O ATOM 2258 N SER A 609 7.015 32.302 71.422 1.00 21.74 N ATOM 2259 CA SER A 609 6.237 33.173 72.304 1.00 21.86 C ATOM 2260 C SER A 609 4.810 33.279 71.789 1.00 22.56 C ATOM 2261 O SER A 609 4.586 33.523 70.600 1.00 22.56 O ATOM 2262 CB SER A 609 6.865 34.562 72.394 1.00 21.81 C ATOM 2263 OG SER A 609 6.124 35.413 73.261 1.00 20.41 O ATOM 2264 N ASP A 610 3.849 33.082 72.684 1.00 23.33 N ATOM 2265 CA ASP A 610 2.432 33.217 72.334 1.00 24.10 C ATOM 2266 C ASP A 610 1.817 34.526 72.855 1.00 24.50 C ATOM 2267 O ASP A 610 0.629 34.794 72.635 1.00 24.43 O ATOM 2268 CB ASP A 610 1.632 32.012 72.839 1.00 24.02 C ATOM 2269 CG ASP A 610 1.882 30.755 72.025 1.00 24.33 C ATOM 2270 OD1 ASP A 610 2.239 30.851 70.826 1.00 23.74 O ATOM 2271 OD2 ASP A 610 1.711 29.660 72.597 1.00 24.37 O ATOM 2272 N ASP A 611 2.637 35.339 73.523 1.00 24.83 N ATOM 2273 CA ASP A 611 2.169 36.579 74.135 1.00 25.20 C ATOM 2274 C ASP A 611 2.961 37.802 73.682 1.00 25.48 C ATOM 2275 O ASP A 611 3.212 38.717 74.467 1.00 25.52 O ATOM 2276 CB ASP A 611 2.153 36.467 75.664 1.00 25.19 C ATOM 2277 CG ASP A 611 3.527 36.160 76.261 1.00 25.85 C ATOM 2278 OD1 ASP A 611 4.562 36.378 75.597 1.00 25.44 O ATOM 2279 OD2 ASP A 611 3.562 35.712 77.428 1.00 27.33 O ATOM 2280 N HIS A 612 3.340 37.801 72.408 1.00 25.80 N ATOM 2281 CA HIS A 612 3.983 38.945 71.766 1.00 26.15 C ATOM 2282 C HIS A 612 5.325 39.320 72.396 1.00 26.25 C ATOM 2283 O HIS A 612 5.649 40.503 72.524 1.00 26.40 O ATOM 2284 CB HIS A 612 3.024 40.146 71.710 1.00 26.40 C ATOM 2285 CG HIS A 612 1.667 39.810 71.162 1.00 26.89 C ATOM 2286 ND1 HIS A 612 1.475 39.337 69.879 1.00 25.90 N ATOM 2287 CD2 HIS A 612 0.435 39.880 71.723 1.00 26.58 C ATOM 2288 CE1 HIS A 612 0.187 39.129 69.675 1.00 25.20 C ATOM 2289 NE2 HIS A 612 −0.467 39.456 70.776 1.00 26.45 N ATOM 2290 N GLY A 613 6.095 38.304 72.787 1.00 26.18 N ATOM 2291 CA GLY A 613 7.474 38.496 73.225 1.00 25.90 C ATOM 2292 C GLY A 613 7.694 38.656 74.716 1.00 25.90 C ATOM 2293 O GLY A 613 8.827 38.856 75.155 1.00 25.60 O ATOM 2294 N LYS A 614 6.621 38.569 75.498 1.00 25.98 N ATOM 2295 CA LYS A 614 6.733 38.696 76.954 1.00 26.22 C ATOM 2296 C LYS A 614 7.397 37.468 77.592 1.00 25.55 C ATOM 2297 O LYS A 614 8.308 37.611 78.405 1.00 25.86 O ATOM 2298 CB LYS A 614 5.365 38.996 77.595 1.00 26.29 C ATOM 2299 CG LYS A 614 5.385 39.112 79.128 1.00 27.03 C ATOM 2300 CD LYS A 614 4.074 39.661 79.678 1.00 27.15 C ATOM 2301 CE LYS A 614 4.125 39.790 81.202 1.00 29.70 C ATOM 2302 NZ LYS A 614 2.817 40.248 81.793 1.00 30.30 N ATOM 2303 N THR A 615 6.934 36.273 77.233 1.00 24.85 N ATOM 2304 CA THR A 615 7.526 35.030 77.740 1.00 24.31 C ATOM 2305 C THR A 615 7.947 34.139 76.585 1.00 24.03 C ATOM 2306 O THR A 615 7.405 34.237 75.487 1.00 23.91 O ATOM 2307 CB THR A 615 6.569 34.221 78.649 1.00 24.22 C ATOM 2308 OG1 THR A 615 5.377 33.898 77.928 1.00 23.99 O ATOM 2309 CG2 THR A 615 6.213 34.997 79.911 1.00 24.24 C ATOM 2310 N TRP A 616 8.923 33.276 76.842 1.00 23.60 N ATOM 2311 CA TRP A 616 9.427 32.368 75.828 1.00 22.94 C ATOM 2312 C TRP A 616 9.413 30.945 76.355 1.00 22.75 C ATOM 2313 O TRP A 616 9.528 30.719 77.562 1.00 22.77 O ATOM 2314 CB TRP A 616 10.829 32.795 75.379 1.00 22.82 C ATOM 2315 CG TRP A 616 10.823 34.167 74.785 1.00 22.48 C ATOM 2316 CD1 TRP A 616 10.945 35.354 75.455 1.00 22.44 C ATOM 2317 CD2 TRP A 616 10.641 34.501 73.407 1.00 22.15 C ATOM 2318 NE1 TRP A 616 10.864 36.407 74.576 1.00 22.32 N ATOM 2319 CE2 TRP A 616 10.680 35.913 73.311 1.00 22.46 C ATOM 2320 CE3 TRP A 616 10.452 33.747 72.242 1.00 21.85 C ATOM 2321 CZ2 TRP A 616 10.535 36.587 72.093 1.00 22.13 C ATOM 2322 CZ3 TRP A 616 10.306 34.417 71.030 1.00 22.39 C ATOM 2323 CH2 TRP A 616 10.350 35.825 70.967 1.00 22.39 C ATOM 2324 N HIS A 617 9.245 29.992 75.444 1.00 22.54 N ATOM 2325 CA HIS A 617 9.227 28.577 75.797 1.00 22.35 C ATOM 2326 C HIS A 617 10.055 27.774 74.800 1.00 21.96 C ATOM 2327 O HIS A 617 10.162 28.140 73.628 1.00 21.60 O ATOM 2328 CB HIS A 617 7.790 28.046 75.832 1.00 22.57 C ATOM 2329 CG HIS A 617 6.866 28.856 76.685 1.00 23.43 C ATOM 2330 ND1 HIS A 617 6.673 28.600 78.027 1.00 24.70 N ATOM 2331 CD2 HIS A 617 6.089 29.926 76.391 1.00 23.60 C ATOM 2332 CE1 HIS A 617 5.812 29.473 78.520 1.00 24.49 C ATOM 2333 NE2 HIS A 617 5.446 30.292 77.549 1.00 24.05 N ATOM 2334 N ALA A 618 10.639 26.681 75.278 1.00 21.57 N ATOM 2335 CA ALA A 618 11.393 25.787 74.428 1.00 21.25 C ATOM 2336 C ALA A 618 10.471 24.728 73.859 1.00 21.30 C ATOM 2337 O ALA A 618 9.708 24.093 74.598 1.00 21.22 O ATOM 2338 CB ALA A 618 12.518 25.137 75.206 1.00 21.19 C ATOM 2339 N GLY A 619 10.539 24.544 72.542 1.00 21.14 N ATOM 2340 CA GLY A 619 9.961 23.367 71.905 1.00 21.04 C ATOM 2341 C GLY A 619 10.882 22.172 72.099 1.00 20.80 C ATOM 2342 O GLY A 619 11.972 22.304 72.653 1.00 20.60 O ATOM 2343 N GLU A 620 10.434 21.003 71.654 1.00 21.09 N ATOM 2344 CA GLU A 620 11.260 19.785 71.652 1.00 21.16 C ATOM 2345 C GLU A 620 12.327 19.862 70.566 1.00 20.91 C ATOM 2346 O GLU A 620 12.144 20.543 69.553 1.00 20.92 O ATOM 2347 CB GLU A 620 10.395 18.541 71.411 1.00 21.10 C ATOM 2348 CG GLU A 620 9.360 18.267 72.503 1.00 21.22 C ATOM 2349 CD GLU A 620 8.778 16.850 72.456 1.00 21.67 C ATOM 2350 OE1 GLU A 620 9.110 16.058 71.538 1.00 21.86 O ATOM 2351 OE2 GLU A 620 7.973 16.524 73.355 1.00 23.31 O ATOM 2352 N ALA A 621 13.443 19.170 70.779 1.00 20.48 N ATOM 2353 CA ALA A 621 14.465 19.058 69.750 1.00 20.13 C ATOM 2354 C ALA A 621 14.002 18.071 68.691 1.00 20.09 C ATOM 2355 O ALA A 621 13.224 17.163 68.987 1.00 20.41 O ATOM 2356 CB ALA A 621 15.789 18.618 70.351 1.00 19.93 C ATOM 2357 N VAL A 622 14.476 18.258 67.460 1.00 19.87 N ATOM 2358 CA VAL A 622 14.234 17.325 66.363 1.00 19.78 C ATOM 2359 C VAL A 622 14.849 15.973 66.693 1.00 20.24 C ATOM 2360 O VAL A 622 14.348 14.924 66.272 1.00 20.06 O ATOM 2361 CB VAL A 622 14.832 17.852 65.032 1.00 19.99 C ATOM 2362 CG1 VAL A 622 14.748 16.794 63.930 1.00 18.57 C ATOM 2363 CG2 VAL A 622 14.136 19.154 64.605 1.00 19.53 C ATOM 2364 N ASN A 623 15.936 16.012 67.460 1.00 20.61 N ATOM 2365 CA ASN A 623 16.625 14.807 67.893 1.00 21.08 C ATOM 2366 C ASN A 623 16.016 14.100 69.116 1.00 21.43 C ATOM 2367 O ASN A 623 16.483 13.018 69.493 1.00 21.72 O ATOM 2368 CB ASN A 623 18.100 15.114 68.142 1.00 21.11 C ATOM 2369 CG ASN A 623 18.882 15.292 66.862 1.00 21.28 C ATOM 2370 OD1 ASN A 623 18.389 15.003 65.773 1.00 21.42 O ATOM 2371 ND2 ASN A 623 20.118 15.765 66.987 1.00 21.57 N ATOM 2372 N ASP A 624 14.990 14.693 69.728 1.00 21.66 N ATOM 2373 CA ASP A 624 14.339 14.083 70.902 1.00 22.42 C ATOM 2374 C ASP A 624 13.421 12.933 70.513 1.00 23.01 C ATOM 2375 O ASP A 624 12.462 13.117 69.755 1.00 23.13 O ATOM 2376 CB ASP A 624 13.577 15.126 71.737 1.00 22.11 C ATOM 2377 CG ASP A 624 14.508 16.097 72.456 1.00 21.59 C ATOM 2378 OD1 ASP A 624 15.707 15.787 72.603 1.00 20.84 O ATOM 2379 OD2 ASP A 624 14.046 17.178 72.874 1.00 21.45 O ATOM 2380 N ASN A 625 13.741 11.754 71.043 1.00 23.78 N ATOM 2381 CA ASN A 625 13.041 10.489 70.765 1.00 24.64 C ATOM 2382 C ASN A 625 12.999 10.130 69.280 1.00 24.87 C ATOM 2383 O ASN A 625 12.008 9.607 68.769 1.00 25.24 O ATOM 2384 CB ASN A 625 11.644 10.457 71.397 1.00 24.82 C ATOM 2385 CG ASN A 625 11.149 9.040 71.651 1.00 26.05 C ATOM 2386 OD1 ASN A 625 11.934 8.126 71.942 1.00 27.20 O ATOM 2387 ND2 ASN A 625 9.838 8.851 71.549 1.00 27.88 N ATOM 2388 N ARG A 626 14.104 10.420 68.605 1.00 25.07 N ATOM 2389 CA ARG A 626 14.257 10.177 67.183 1.00 25.11 C ATOM 2390 C ARG A 626 15.064 8.904 66.962 1.00 25.29 C ATOM 2391 O ARG A 626 15.986 8.599 67.728 1.00 25.20 O ATOM 2392 CB ARG A 626 14.975 11.370 66.561 1.00 25.12 C ATOM 2393 CG ARG A 626 15.282 11.249 65.098 1.00 24.94 C ATOM 2394 CD ARG A 626 16.393 12.201 64.754 1.00 25.44 C ATOM 2395 NE ARG A 626 16.996 11.889 63.465 1.00 25.40 N ATOM 2396 CZ ARG A 626 18.180 12.334 63.070 1.00 25.64 C ATOM 2397 NH1 ARG A 626 18.906 13.113 63.868 1.00 25.16 N ATOM 2398 NH2 ARG A 626 18.638 12.005 61.870 1.00 26.15 N ATOM 2399 N GLN A 627 14.729 8.163 65.911 1.00 25.46 N ATOM 2400 CA GLN A 627 15.436 6.926 65.627 1.00 25.58 C ATOM 2401 C GLN A 627 16.548 7.091 64.595 1.00 25.65 C ATOM 2402 O GLN A 627 16.310 7.481 63.453 1.00 25.58 O ATOM 2403 CB GLN A 627 14.469 5.821 65.220 1.00 25.63 C ATOM 2404 CG GLN A 627 14.942 4.452 65.670 1.00 26.15 C ATOM 2405 CD GLN A 627 13.865 3.396 65.561 1.00 26.36 C ATOM 2406 OE1 GLN A 627 13.144 3.125 66.525 1.00 26.87 O ATOM 2407 NE2 GLN A 627 13.741 2.799 64.381 1.00 25.79 N ATOM 2408 N VAL A 628 17.769 6.802 65.036 1.00 25.97 N ATOM 2409 CA VAL A 628 18.946 6.768 64.180 1.00 25.97 C ATOM 2410 C VAL A 628 19.500 5.348 64.217 1.00 26.20 C ATOM 2411 O VAL A 628 19.906 4.871 65.274 1.00 26.15 O ATOM 2412 CB VAL A 628 20.031 7.763 64.674 1.00 25.89 C ATOM 2413 CG1 VAL A 628 21.336 7.597 63.889 1.00 25.59 C ATOM 2414 CG2 VAL A 628 19.528 9.190 64.581 1.00 25.81 C ATOM 2415 N ASP A 629 19.503 4.677 63.066 1.00 26.67 N ATOM 2416 CA ASP A 629 20.043 3.315 62.942 1.00 27.40 C ATOM 2417 C ASP A 629 19.442 2.323 63.944 1.00 27.57 C ATOM 2418 O ASP A 629 20.165 1.508 64.533 1.00 27.35 O ATOM 2419 CB ASP A 629 21.577 3.322 63.059 1.00 27.72 C ATOM 2420 CG ASP A 629 22.249 4.124 61.955 1.00 28.52 C ATOM 2421 OD1 ASP A 629 21.836 3.999 60.781 1.00 28.82 O ATOM 2422 OD2 ASP A 629 23.194 4.882 62.265 1.00 29.81 O ATOM 2423 N GLY A 630 18.124 2.409 64.137 1.00 27.86 N ATOM 2424 CA GLY A 630 17.400 1.514 65.042 1.00 28.19 C ATOM 2425 C GLY A 630 17.523 1.836 66.522 1.00 28.60 C ATOM 2426 O GLY A 630 16.931 1.153 67.352 1.00 28.89 O ATOM 2427 N GLN A 631 18.289 2.869 66.863 1.00 28.79 N ATOM 2428 CA GLN A 631 18.447 3.282 68.261 1.00 29.24 C ATOM 2429 C GLN A 631 17.936 4.700 68.471 1.00 28.48 C ATOM 2430 O GLN A 631 18.369 5.624 67.785 1.00 28.59 O ATOM 2431 CB GLN A 631 19.913 3.182 68.693 1.00 29.15 C ATOM 2432 CG GLN A 631 20.411 1.746 68.908 1.00 30.64 C ATOM 2433 CD GLN A 631 21.921 1.660 69.162 1.00 31.20 C ATOM 2434 OE1 GLN A 631 22.660 2.646 69.015 1.00 32.91 O ATOM 2435 NE2 GLN A 631 22.382 0.471 69.544 1.00 34.05 N ATOM 2436 N LYS A 632 17.013 4.870 69.415 1.00 27.81 N ATOM 2437 CA LYS A 632 16.464 6.192 69.711 1.00 27.29 C ATOM 2438 C LYS A 632 17.482 7.063 70.435 1.00 26.44 C ATOM 2439 O LYS A 632 18.198 6.580 71.305 1.00 26.43 O ATOM 2440 CB LYS A 632 15.177 6.085 70.528 1.00 27.27 C ATOM 2441 CG LYS A 632 14.027 5.412 69.779 1.00 28.01 C ATOM 2442 CD LYS A 632 12.762 5.342 70.630 1.00 28.31 C ATOM 2443 CE LYS A 632 11.787 4.286 70.115 1.00 30.01 C ATOM 2444 NZ LYS A 632 11.333 4.548 68.714 1.00 31.65 N ATOM 2445 N ILE A 633 17.554 8.336 70.047 1.00 25.39 N ATOM 2446 CA ILE A 633 18.409 9.312 70.717 1.00 24.44 C ATOM 2447 C ILE A 633 17.588 10.413 71.395 1.00 23.93 C ATOM 2448 O ILE A 633 16.364 10.484 71.240 1.00 23.85 O ATOM 2449 CB ILE A 633 19.454 9.961 69.759 1.00 24.42 C ATOM 2450 CG1 ILE A 633 18.772 10.618 68.553 1.00 24.76 C ATOM 2451 CG2 ILE A 633 20.498 8.944 69.328 1.00 25.00 C ATOM 2452 CD1 ILE A 633 19.696 11.464 67.679 1.00 24.33 C ATOM 2453 N HIS A 634 18.280 11.254 72.157 1.00 22.96 N ATOM 2454 CA HIS A 634 17.702 12.428 72.772 1.00 22.28 C ATOM 2455 C HIS A 634 18.799 13.468 72.775 1.00 22.05 C ATOM 2456 O HIS A 634 19.974 13.119 72.896 1.00 22.07 O ATOM 2457 CB HIS A 634 17.272 12.120 74.205 1.00 22.30 C ATOM 2458 CG HIS A 634 16.469 13.208 74.844 1.00 21.71 C ATOM 2459 ND1 HIS A 634 17.044 14.240 75.557 1.00 21.42 N ATOM 2460 CD2 HIS A 634 15.134 13.427 74.879 1.00 21.28 C ATOM 2461 CE1 HIS A 634 16.099 15.047 76.002 1.00 20.31 C ATOM 2462 NE2 HIS A 634 14.930 14.576 75.605 1.00 21.37 N ATOM 2463 N SER A 635 18.427 14.739 72.646 1.00 21.64 N ATOM 2464 CA SER A 635 19.420 15.814 72.545 1.00 21.40 C ATOM 2465 C SER A 635 20.261 15.999 73.819 1.00 21.25 C ATOM 2466 O SER A 635 21.356 16.564 73.762 1.00 21.25 O ATOM 2467 CB SER A 635 18.761 17.131 72.121 1.00 21.27 C ATOM 2468 OG SER A 635 17.712 17.497 72.994 1.00 21.38 O ATOM 2469 N SER A 636 19.753 15.508 74.950 1.00 20.81 N ATOM 2470 CA SER A 636 20.449 15.610 76.232 1.00 20.67 C ATOM 2471 C SER A 636 21.491 14.519 76.465 1.00 20.76 C ATOM 2472 O SER A 636 22.358 14.673 77.319 1.00 20.42 O ATOM 2473 CB SER A 636 19.447 15.617 77.392 1.00 20.58 C ATOM 2474 OG SER A 636 18.786 14.371 77.522 1.00 20.58 O ATOM 2475 N THR A 637 21.404 13.426 75.705 1.00 21.05 N ATOM 2476 CA THR A 637 22.253 12.252 75.934 1.00 21.37 C ATOM 2477 C THR A 637 23.001 11.766 74.685 1.00 21.52 C ATOM 2478 O THR A 637 23.775 10.808 74.752 1.00 21.36 O ATOM 2479 CB THR A 637 21.428 11.068 76.516 1.00 21.66 C ATOM 2480 OG1 THR A 637 20.285 10.812 75.683 1.00 21.94 O ATOM 2481 CG2 THR A 637 20.956 11.370 77.949 1.00 21.43 C ATOM 2482 N MET A 638 22.776 12.427 73.551 1.00 21.74 N ATOM 2483 CA MET A 638 23.315 11.947 72.280 1.00 21.69 C ATOM 2484 C MET A 638 24.821 12.166 72.108 1.00 21.73 C ATOM 2485 O MET A 638 25.398 13.115 72.656 1.00 21.51 O ATOM 2486 CB MET A 638 22.527 12.514 71.091 1.00 21.79 C ATOM 2487 CG MET A 638 22.860 13.945 70.715 1.00 21.58 C ATOM 2488 SD MET A 638 21.951 14.519 69.274 1.00 21.85 S ATOM 2489 CE MET A 638 22.867 13.792 67.915 1.00 22.09 C ATOM 2490 N ASN A 639 25.438 11.261 71.348 1.00 21.83 N ATOM 2491 CA ASN A 639 26.846 11.339 70.969 1.00 21.80 C ATOM 2492 C ASN A 639 27.021 10.677 69.610 1.00 22.19 C ATOM 2493 O ASN A 639 27.470 9.535 69.497 1.00 22.24 O ATOM 2494 CB ASN A 639 27.757 10.694 72.022 1.00 21.36 C ATOM 2495 CG ASN A 639 29.242 10.811 71.665 1.00 20.90 C ATOM 2496 OD1 ASN A 639 29.645 11.683 70.891 1.00 19.94 O ATOM 2497 ND2 ASN A 639 30.055 9.925 72.224 1.00 19.34 N ATOM 2498 N ASN A 640 26.638 11.417 68.579 1.00 22.77 N ATOM 2499 CA ASN A 640 26.600 10.920 67.219 1.00 23.26 C ATOM 2500 C ASN A 640 26.814 12.109 66.305 1.00 23.96 C ATOM 2501 O ASN A 640 25.931 12.965 66.171 1.00 23.89 O ATOM 2502 CB ASN A 640 25.246 10.257 66.940 1.00 23.03 C ATOM 2503 CG ASN A 640 25.149 9.668 65.542 1.00 22.82 C ATOM 2504 OD1 ASN A 640 25.458 10.323 64.541 1.00 22.96 O ATOM 2505 ND2 ASN A 640 24.702 8.423 65.468 1.00 22.01 N ATOM 2506 N ARG A 641 27.995 12.154 65.689 1.00 24.62 N ATOM 2507 CA ARG A 641 28.410 13.276 64.855 1.00 25.23 C ATOM 2508 C ARG A 641 27.431 13.531 63.711 1.00 25.17 C ATOM 2509 O ARG A 641 27.003 14.675 63.488 1.00 25.40 O ATOM 2510 CB ARG A 641 29.816 13.038 64.303 1.00 25.26 C ATOM 2511 CG ARG A 641 30.494 14.304 63.823 1.00 26.40 C ATOM 2512 CD ARG A 641 31.906 14.066 63.300 1.00 26.66 C ATOM 2513 NE ARG A 641 32.303 15.169 62.423 1.00 29.71 N ATOM 2514 CZ ARG A 641 32.069 15.208 61.110 1.00 30.42 C ATOM 2515 NH1 ARG A 641 31.456 14.191 60.506 1.00 29.21 N ATOM 2516 NH2 ARG A 641 32.450 16.266 60.396 1.00 30.64 N ATOM 2517 N ARG A 642 27.067 12.456 63.016 1.00 24.80 N ATOM 2518 CA ARG A 642 26.251 12.528 61.810 1.00 24.72 C ATOM 2519 C ARG A 642 24.798 12.958 62.068 1.00 24.18 C ATOM 2520 O ARG A 642 24.145 13.521 61.183 1.00 24.00 O ATOM 2521 CB ARG A 642 26.277 11.170 61.100 1.00 25.06 C ATOM 2522 CG ARG A 642 25.582 11.150 59.754 1.00 26.28 C ATOM 2523 CD ARG A 642 25.885 9.875 58.986 1.00 27.98 C ATOM 2524 NE ARG A 642 25.277 9.892 57.656 1.00 29.07 N ATOM 2525 CZ ARG A 642 25.811 10.483 56.589 1.00 29.96 C ATOM 2526 NH1 ARG A 642 26.977 11.122 56.676 1.00 30.08 N ATOM 2527 NH2 ARG A 642 25.178 10.434 55.425 1.00 30.47 N ATOM 2528 N ALA A 643 24.299 12.691 63.274 1.00 23.32 N ATOM 2529 CA ALA A 643 22.886 12.900 63.576 1.00 22.45 C ATOM 2530 C ALA A 643 22.599 14.305 64.108 1.00 21.96 C ATOM 2531 O ALA A 643 21.452 14.647 64.405 1.00 22.03 O ATOM 2532 CB ALA A 643 22.379 11.832 64.537 1.00 22.39 C ATOM 2533 N GLN A 644 23.643 15.117 64.208 1.00 21.07 N ATOM 2534 CA GLN A 644 23.504 16.490 64.651 1.00 20.46 C ATOM 2535 C GLN A 644 22.749 17.349 63.649 1.00 20.36 C ATOM 2536 O GLN A 644 22.744 17.081 62.446 1.00 20.22 O ATOM 2537 CB GLN A 644 24.873 17.118 64.871 1.00 20.43 C ATOM 2538 CG GLN A 644 25.622 16.628 66.086 1.00 20.25 C ATOM 2539 CD GLN A 644 27.013 17.197 66.131 1.00 19.57 C ATOM 2540 OE1 GLN A 644 27.301 18.088 66.918 1.00 18.79 O ATOM 2541 NE2 GLN A 644 27.881 16.704 65.259 1.00 20.47 N ATOM 2542 N ASN A 645 22.115 18.388 64.170 1.00 20.08 N ATOM 2543 CA ASN A 645 21.549 19.449 63.368 1.00 19.92 C ATOM 2544 C ASN A 645 21.682 20.715 64.183 1.00 20.00 C ATOM 2545 O ASN A 645 21.425 20.713 65.382 1.00 20.06 O ATOM 2546 CB ASN A 645 20.098 19.164 62.975 1.00 19.96 C ATOM 2547 CG ASN A 645 19.363 18.310 63.989 1.00 19.74 C ATOM 2548 OD1 ASN A 645 19.009 18.774 65.071 1.00 21.27 O ATOM 2549 ND2 ASN A 645 19.105 17.061 63.630 1.00 18.29 N ATOM 2550 N THR A 646 22.106 21.795 63.541 1.00 20.14 N ATOM 2551 CA THR A 646 22.610 22.942 64.288 1.00 20.17 C ATOM 2552 C THR A 646 21.773 24.198 64.043 1.00 20.35 C ATOM 2553 O THR A 646 20.577 24.229 64.359 1.00 20.31 O ATOM 2554 CB THR A 646 24.112 23.175 63.990 1.00 20.10 C ATOM 2555 OG1 THR A 646 24.264 23.764 62.694 1.00 19.88 O ATOM 2556 CG2 THR A 646 24.869 21.856 64.020 1.00 19.40 C ATOM 2557 N GLU A 647 22.411 25.231 63.501 1.00 20.59 N ATOM 2558 CA GLU A 647 21.714 26.416 63.017 1.00 20.79 C ATOM 2559 C GLU A 647 20.654 25.957 62.037 1.00 20.46 C ATOM 2560 O GLU A 647 20.857 24.995 61.297 1.00 20.49 O ATOM 2561 CB GLU A 647 22.679 27.366 62.300 1.00 20.58 C ATOM 2562 CG GLU A 647 23.921 27.735 63.093 1.00 20.89 C ATOM 2563 CD GLU A 647 24.990 28.405 62.236 1.00 21.39 C ATOM 2564 OE1 GLU A 647 25.171 28.020 61.062 1.00 21.55 O ATOM 2565 OE2 GLU A 647 25.659 29.327 62.743 1.00 23.40 O ATOM 2566 N SER A 648 19.518 26.639 62.036 1.00 20.32 N ATOM 2567 CA SER A 648 18.436 26.256 61.154 1.00 20.16 C ATOM 2568 C SER A 648 17.676 27.475 60.687 1.00 19.99 C ATOM 2569 O SER A 648 17.863 28.579 61.215 1.00 19.85 O ATOM 2570 CB SER A 648 17.494 25.286 61.869 1.00 20.05 C ATOM 2571 OG SER A 648 16.943 25.901 63.018 1.00 20.75 O ATOM 2572 N THR A 649 16.831 27.274 59.683 1.00 19.80 N ATOM 2573 CA THR A 649 15.919 28.315 59.248 1.00 20.07 C ATOM 2574 C THR A 649 14.485 27.778 59.171 1.00 20.30 C ATOM 2575 O THR A 649 14.249 26.653 58.713 1.00 20.15 O ATOM 2576 CB THR A 649 16.391 28.993 57.940 1.00 20.08 C ATOM 2577 OG1 THR A 649 15.546 30.112 57.650 1.00 20.03 O ATOM 2578 CG2 THR A 649 16.393 28.017 56.761 1.00 20.04 C ATOM 2579 N VAL A 650 13.540 28.587 59.642 1.00 20.57 N ATOM 2580 CA VAL A 650 12.167 28.133 59.879 1.00 20.87 C ATOM 2581 C VAL A 650 11.173 28.761 58.891 1.00 21.10 C ATOM 2582 O VAL A 650 11.257 29.958 58.611 1.00 21.07 O ATOM 2583 CB VAL A 650 11.754 28.393 61.370 1.00 20.97 C ATOM 2584 CG1 VAL A 650 11.632 29.900 61.674 1.00 20.68 C ATOM 2585 CG2 VAL A 650 10.483 27.646 61.733 1.00 20.39 C ATOM 2586 N VAL A 651 10.262 27.944 58.347 1.00 21.38 N ATOM 2587 CA VAL A 651 9.205 28.424 57.435 1.00 21.76 C ATOM 2588 C VAL A 651 7.855 27.729 57.681 1.00 21.93 C ATOM 2589 O VAL A 651 7.808 26.512 57.909 1.00 21.81 O ATOM 2590 CB VAL A 651 9.579 28.274 55.914 1.00 21.91 C ATOM 2591 CG1 VAL A 651 10.995 28.751 55.615 1.00 21.91 C ATOM 2592 CG2 VAL A 651 9.419 26.852 55.443 1.00 22.76 C ATOM 2593 N GLN A 652 6.766 28.497 57.628 1.00 21.99 N ATOM 2594 CA GLN A 652 5.422 27.913 57.671 1.00 22.26 C ATOM 2595 C GLN A 652 4.812 27.768 56.277 1.00 22.37 C ATOM 2596 O GLN A 652 4.913 28.672 55.445 1.00 22.33 O ATOM 2597 CB GLN A 652 4.465 28.706 58.582 1.00 22.32 C ATOM 2598 CG GLN A 652 3.155 27.940 58.861 1.00 22.11 C ATOM 2599 CD GLN A 652 2.193 28.656 59.796 1.00 22.16 C ATOM 2600 OE1 GLN A 652 2.003 29.869 59.716 1.00 21.85 O ATOM 2601 NE2 GLN A 652 1.562 27.893 60.679 1.00 21.83 N ATOM 2602 N LEU A 653 4.178 26.621 56.039 1.00 22.74 N ATOM 2603 CA LEU A 653 3.424 26.376 54.806 1.00 23.06 C ATOM 2604 C LEU A 653 2.018 26.960 54.896 1.00 22.97 C ATOM 2605 O LEU A 653 1.538 27.291 55.987 1.00 23.10 O ATOM 2606 CB LEU A 653 3.332 24.871 54.512 1.00 22.88 C ATOM 2607 CG LEU A 653 4.600 24.073 54.208 1.00 23.60 C ATOM 2608 CD1 LEU A 653 4.231 22.667 53.769 1.00 23.89 C ATOM 2609 CD2 LEU A 653 5.464 24.747 53.142 1.00 24.70 C ATOM 2610 N ASN A 654 1.358 27.076 53.746 1.00 23.03 N ATOM 2611 CA ASN A 654 −0.050 27.480 53.699 1.00 23.03 C ATOM 2612 C ASN A 654 −1.002 26.469 54.336 1.00 22.64 C ATOM 2613 O ASN A 654 −2.132 26.816 54.678 1.00 22.55 O ATOM 2614 CB ASN A 654 −0.482 27.802 52.262 1.00 23.23 C ATOM 2615 CG ASN A 654 0.090 29.114 51.772 1.00 23.57 C ATOM 2616 OD1 ASN A 654 0.359 30.017 52.563 1.00 23.90 O ATOM 2617 ND2 ASN A 654 0.288 29.226 50.464 1.00 24.45 N ATOM 2618 N ASN A 655 −0.533 25.235 54.508 1.00 22.36 N ATOM 2619 CA ASN A 655 −1.314 24.196 55.171 1.00 22.27 C ATOM 2620 C ASN A 655 −1.059 24.077 56.681 1.00 22.38 C ATOM 2621 O ASN A 655 −1.567 23.163 57.332 1.00 22.03 O ATOM 2622 CB ASN A 655 −1.146 22.846 54.461 1.00 22.38 C ATOM 2623 CG ASN A 655 0.224 22.215 54.674 1.00 23.37 C ATOM 2624 OD1 ASN A 655 1.078 22.737 55.390 1.00 24.64 O ATOM 2625 ND2 ASN A 655 0.428 21.066 54.051 1.00 24.33 N ATOM 2626 N GLY A 656 −0.271 25.007 57.226 1.00 22.54 N ATOM 2627 CA GLY A 656 −0.045 25.088 58.669 1.00 22.40 C ATOM 2628 C GLY A 656 1.198 24.373 59.163 1.00 22.46 C ATOM 2629 O GLY A 656 1.615 24.552 60.314 1.00 22.39 O ATOM 2630 N ASP A 657 1.794 23.558 58.301 1.00 22.33 N ATOM 2631 CA ASP A 657 3.000 22.841 58.674 1.00 22.26 C ATOM 2632 C ASP A 657 4.168 23.805 58.783 1.00 22.25 C ATOM 2633 O ASP A 657 4.215 24.840 58.097 1.00 22.00 O ATOM 2634 CB ASP A 657 3.318 21.728 57.675 1.00 22.36 C ATOM 2635 CG ASP A 657 2.476 20.480 57.898 1.00 23.55 C ATOM 2636 OD1 ASP A 657 1.557 20.510 58.753 1.00 24.51 O ATOM 2637 OD2 ASP A 657 2.741 19.462 57.217 1.00 23.42 O ATOM 2638 N VAL A 658 5.090 23.457 59.675 1.00 21.80 N ATOM 2639 CA VAL A 658 6.314 24.194 59.873 1.00 21.32 C ATOM 2640 C VAL A 658 7.455 23.340 59.363 1.00 21.06 C ATOM 2641 O VAL A 658 7.556 22.160 59.700 1.00 21.44 O ATOM 2642 CB VAL A 658 6.542 24.513 61.366 1.00 21.44 C ATOM 2643 CG1 VAL A 658 7.868 25.237 61.567 1.00 20.76 C ATOM 2644 CG2 VAL A 658 5.387 25.336 61.916 1.00 21.18 C ATOM 2645 N LYS A 659 8.309 23.939 58.545 1.00 20.59 N ATOM 2646 CA LYS A 659 9.489 23.255 58.044 1.00 20.15 C ATOM 2647 C LYS A 659 10.743 23.890 58.629 1.00 19.44 C ATOM 2648 O LYS A 659 10.875 25.116 58.668 1.00 18.90 O ATOM 2649 CB LYS A 659 9.525 23.277 56.510 1.00 20.26 C ATOM 2650 CG LYS A 659 8.336 22.592 55.836 1.00 21.28 C ATOM 2651 CD LYS A 659 8.518 21.077 55.765 1.00 23.70 C ATOM 2652 CE LYS A 659 7.376 20.412 55.007 1.00 24.90 C ATOM 2653 NZ LYS A 659 7.380 18.931 55.217 1.00 26.29 N ATOM 2654 N LEU A 660 11.648 23.039 59.101 1.00 19.21 N ATOM 2655 CA LEU A 660 12.912 23.489 59.675 1.00 18.87 C ATOM 2656 C LEU A 660 14.096 22.978 58.860 1.00 18.78 C ATOM 2657 O LEU A 660 14.420 21.791 58.873 1.00 18.71 O ATOM 2658 CB LEU A 660 13.021 23.071 61.140 1.00 18.45 C ATOM 2659 CG LEU A 660 14.061 23.774 62.015 1.00 18.35 C ATOM 2660 CD1 LEU A 660 13.700 25.232 62.286 1.00 16.99 C ATOM 2661 CD2 LEU A 660 14.222 23.015 63.323 1.00 18.65 C ATOM 2662 N PHE A 661 14.727 23.894 58.138 1.00 18.91 N ATOM 2663 CA PHE A 661 15.892 23.577 57.334 1.00 19.18 C ATOM 2664 C PHE A 661 17.131 23.708 58.211 1.00 19.48 C ATOM 2665 O PHE A 661 17.438 24.790 58.701 1.00 19.25 O ATOM 2666 CB PHE A 661 15.965 24.509 56.129 1.00 19.00 C ATOM 2667 CG PHE A 661 14.732 24.489 55.282 1.00 19.11 C ATOM 2668 CD1 PHE A 661 14.646 23.645 54.181 1.00 19.13 C ATOM 2669 CD2 PHE A 661 13.644 25.303 55.591 1.00 19.18 C ATOM 2670 CE1 PHE A 661 13.497 23.615 53.389 1.00 19.04 C ATOM 2671 CE2 PHE A 661 12.493 25.279 54.807 1.00 19.57 C ATOM 2672 CZ PHE A 661 12.423 24.431 53.699 1.00 19.06 C ATOM 2673 N MET A 662 17.831 22.594 58.402 1.00 19.92 N ATOM 2674 CA MET A 662 18.856 22.498 59.427 1.00 20.59 C ATOM 2675 C MET A 662 20.224 22.242 58.839 1.00 20.71 C ATOM 2676 O MET A 662 20.404 21.306 58.065 1.00 21.03 O ATOM 2677 CB MET A 662 18.521 21.371 60.405 1.00 20.43 C ATOM 2678 CG MET A 662 17.132 21.454 61.032 1.00 20.74 C ATOM 2679 SD MET A 662 16.700 19.925 61.885 1.00 21.48 S ATOM 2680 CE MET A 662 16.728 18.758 60.523 1.00 19.88 C ATOM 2681 N ARG A 663 21.186 23.080 59.215 1.00 20.95 N ATOM 2682 CA ARG A 663 22.593 22.836 58.918 1.00 21.28 C ATOM 2683 C ARG A 663 23.053 21.526 59.572 1.00 21.63 C ATOM 2684 O ARG A 663 22.817 21.290 60.760 1.00 21.66 O ATOM 2685 CB ARG A 663 23.441 24.018 59.404 1.00 21.23 C ATOM 2686 CG ARG A 663 24.950 23.768 59.456 1.00 21.19 C ATOM 2687 CD ARG A 663 25.677 24.975 60.017 1.00 21.11 C ATOM 2688 NE ARG A 663 27.062 24.684 60.368 1.00 21.85 N ATOM 2689 CZ ARG A 663 27.962 25.608 60.697 1.00 21.81 C ATOM 2690 NH1 ARG A 663 27.631 26.891 60.713 1.00 21.56 N ATOM 2691 NH2 ARG A 663 29.200 25.253 61.001 1.00 21.18 N ATOM 2692 N GLY A 664 23.708 20.680 58.785 1.00 22.13 N ATOM 2693 CA GLY A 664 24.185 19.385 59.262 1.00 22.61 C ATOM 2694 C GLY A 664 25.332 18.848 58.439 1.00 22.96 C ATOM 2695 O GLY A 664 25.952 19.585 57.674 1.00 22.99 O ATOM 2696 N LEU A 665 25.595 17.553 58.580 1.00 23.62 N ATOM 2697 CA LEU A 665 26.810 16.942 58.037 1.00 24.16 C ATOM 2698 C LEU A 665 26.528 15.739 57.146 1.00 24.59 C ATOM 2699 O LEU A 665 27.218 14.717 57.211 1.00 24.72 O ATOM 2700 CB LEU A 665 27.762 16.568 59.178 1.00 24.04 C ATOM 2701 CG LEU A 665 28.356 17.787 59.885 1.00 24.10 C ATOM 2702 CD1 LEU A 665 28.753 17.469 61.318 1.00 24.23 C ATOM 2703 CD2 LEU A 665 29.531 18.344 59.089 1.00 24.60 C ATOM 2704 N THR A 666 25.515 15.884 56.302 1.00 25.02 N ATOM 2705 CA THR A 666 25.132 14.850 55.353 1.00 25.40 C ATOM 2706 C THR A 666 25.509 15.262 53.925 1.00 25.57 C ATOM 2707 O THR A 666 25.310 14.496 52.981 1.00 25.91 O ATOM 2708 CB THR A 666 23.612 14.594 55.411 1.00 25.43 C ATOM 2709 OG1 THR A 666 22.916 15.792 55.049 1.00 26.40 O ATOM 2710 CG2 THR A 666 23.176 14.178 56.809 1.00 25.17 C ATOM 2711 N GLY A 667 26.047 16.473 53.775 1.00 25.67 N ATOM 2712 CA GLY A 667 26.295 17.076 52.463 1.00 25.62 C ATOM 2713 C GLY A 667 25.010 17.471 51.760 1.00 25.70 C ATOM 2714 O GLY A 667 25.036 17.989 50.650 1.00 26.03 O ATOM 2715 N ASP A 668 23.891 17.237 52.439 1.00 25.81 N ATOM 2716 CA ASP A 668 22.544 17.320 51.881 1.00 25.57 C ATOM 2717 C ASP A 668 21.704 18.321 52.642 1.00 24.85 C ATOM 2718 O ASP A 668 21.990 18.623 53.792 1.00 24.51 O ATOM 2719 CB ASP A 668 21.852 15.962 52.039 1.00 25.81 C ATOM 2720 CG ASP A 668 22.096 15.049 50.879 1.00 27.43 C ATOM 2721 OD1 ASP A 668 21.783 15.440 49.743 1.00 29.81 O ATOM 2722 OD2 ASP A 668 22.590 13.928 51.091 1.00 30.16 O ATOM 2723 N LEU A 669 20.634 18.793 52.010 1.00 24.22 N ATOM 2724 CA LEU A 669 19.634 19.575 52.715 1.00 23.55 C ATOM 2725 C LEU A 669 18.783 18.694 53.629 1.00 23.26 C ATOM 2726 O LEU A 669 18.132 17.757 53.174 1.00 23.44 O ATOM 2727 CB LEU A 669 18.745 20.346 51.740 1.00 23.26 C ATOM 2728 CG LEU A 669 17.776 21.317 52.417 1.00 22.42 C ATOM 2729 CD1 LEU A 669 18.528 22.433 53.122 1.00 20.50 C ATOM 2730 CD2 LEU A 669 16.798 21.876 51.408 1.00 21.11 C ATOM 2731 N GLN A 670 18.794 19.017 54.917 1.00 22.85 N ATOM 2732 CA GLN A 670 18.035 18.278 55.918 1.00 22.37 C ATOM 2733 C GLN A 670 16.863 19.117 56.402 1.00 22.15 C ATOM 2734 O GLN A 670 17.030 20.274 56.800 1.00 21.78 O ATOM 2735 CB GLN A 670 18.927 17.914 57.101 1.00 22.48 C ATOM 2736 CG GLN A 670 20.092 16.992 56.762 1.00 22.25 C ATOM 2737 CD GLN A 670 20.767 16.456 58.009 1.00 22.43 C ATOM 2738 OE1 GLN A 670 21.860 16.900 58.377 1.00 22.73 O ATOM 2739 NE2 GLN A 670 20.111 15.513 58.680 1.00 20.28 N ATOM 2740 N VAL A 671 15.675 18.522 56.370 1.00 22.00 N ATOM 2741 CA VAL A 671 14.447 19.244 56.682 1.00 21.78 C ATOM 2742 C VAL A 671 13.576 18.462 57.669 1.00 21.87 C ATOM 2743 O VAL A 671 13.274 17.282 57.448 1.00 21.96 O ATOM 2744 CB VAL A 671 13.634 19.549 55.400 1.00 21.71 C ATOM 2745 CG1 VAL A 671 12.514 20.536 55.704 1.00 21.98 C ATOM 2746 CG2 VAL A 671 14.541 20.091 54.292 1.00 21.18 C ATOM 2747 N ALA A 672 13.177 19.131 58.752 1.00 21.64 N ATOM 2748 CA ALA A 672 12.262 18.556 59.737 1.00 21.69 C ATOM 2749 C ALA A 672 10.855 19.139 59.582 1.00 21.84 C ATOM 2750 O ALA A 672 10.696 20.280 59.137 1.00 21.55 O ATOM 2751 CB ALA A 672 12.783 18.798 61.148 1.00 21.50 C ATOM 2752 N THR A 673 9.845 18.359 59.968 1.00 21.95 N ATOM 2753 CA THR A 673 8.449 18.778 59.873 1.00 22.19 C ATOM 2754 C THR A 673 7.707 18.753 61.220 1.00 22.46 C ATOM 2755 O THR A 673 7.771 17.760 61.958 1.00 22.31 O ATOM 2756 CB THR A 673 7.690 17.912 58.840 1.00 22.29 C ATOM 2757 OG1 THR A 673 8.326 18.033 57.558 1.00 21.98 O ATOM 2758 CG2 THR A 673 6.229 18.353 58.722 1.00 22.10 C ATOM 2759 N SER A 674 7.001 19.851 61.516 1.00 22.87 N ATOM 2760 CA SER A 674 6.187 19.994 62.731 1.00 23.25 C ATOM 2761 C SER A 674 4.712 20.205 62.396 1.00 23.80 C ATOM 2762 O SER A 674 4.378 20.992 61.508 1.00 23.85 O ATOM 2763 CB SER A 674 6.677 21.178 63.572 1.00 23.29 C ATOM 2764 OG SER A 674 5.805 21.444 64.666 1.00 23.16 O ATOM 2765 N LYS A 675 3.839 19.526 63.139 1.00 24.35 N ATOM 2766 CA LYS A 675 2.396 19.597 62.919 1.00 24.95 C ATOM 2767 C LYS A 675 1.693 20.470 63.954 1.00 25.01 C ATOM 2768 O LYS A 675 0.595 20.975 63.703 1.00 25.02 O ATOM 2769 CB LYS A 675 1.781 18.195 62.944 1.00 25.23 C ATOM 2770 CG LYS A 675 2.258 17.254 61.847 1.00 26.53 C ATOM 2771 CD LYS A 675 1.666 17.619 60.502 1.00 28.36 C ATOM 2772 CE LYS A 675 1.979 16.559 59.458 1.00 29.29 C ATOM 2773 NZ LYS A 675 1.822 17.147 58.099 1.00 30.40 N ATOM 2774 N ASP A 676 2.324 20.628 65.117 1.00 24.96 N ATOM 2775 CA ASP A 676 1.768 21.413 66.217 1.00 24.75 C ATOM 2776 C ASP A 676 2.431 22.785 66.372 1.00 24.88 C ATOM 2777 O ASP A 676 2.435 23.370 67.462 1.00 25.11 O ATOM 2778 CB ASP A 676 1.827 20.623 67.532 1.00 24.72 C ATOM 2779 CG ASP A 676 3.233 20.108 67.866 1.00 25.45 C ATOM 2780 OD1 ASP A 676 4.217 20.456 67.162 1.00 26.18 O ATOM 2781 OD2 ASP A 676 3.344 19.341 68.849 1.00 24.89 O ATOM 2782 N GLY A 677 2.996 23.291 65.281 1.00 24.91 N ATOM 2783 CA GLY A 677 3.503 24.658 65.239 1.00 25.05 C ATOM 2784 C GLY A 677 4.827 24.888 65.936 1.00 25.13 C ATOM 2785 O GLY A 677 5.004 25.891 66.625 1.00 25.22 O ATOM 2786 N GLY A 678 5.757 23.957 65.750 1.00 25.28 N ATOM 2787 CA GLY A 678 7.123 24.134 66.217 1.00 25.26 C ATOM 2788 C GLY A 678 7.489 23.359 67.457 1.00 25.31 C ATOM 2789 O GLY A 678 8.670 23.162 67.724 1.00 25.68 O ATOM 2790 N VAL A 679 6.484 22.908 68.209 1.00 25.43 N ATOM 2791 CA VAL A 679 6.710 22.215 69.484 1.00 25.33 C ATOM 2792 C VAL A 679 7.248 20.786 69.309 1.00 25.61 C ATOM 2793 O VAL A 679 8.230 20.412 69.951 1.00 25.80 O ATOM 2794 CB VAL A 679 5.442 22.221 70.389 1.00 25.26 C ATOM 2795 CG1 VAL A 679 5.766 21.705 71.790 1.00 24.24 C ATOM 2796 CG2 VAL A 679 4.848 23.621 70.475 1.00 25.13 C ATOM 2797 N THR A 680 6.611 20.004 68.443 1.00 25.77 N ATOM 2798 CA THR A 680 6.972 18.599 68.219 1.00 26.08 C ATOM 2799 C THR A 680 7.413 18.408 66.772 1.00 25.99 C ATOM 2800 O THR A 680 7.019 19.171 65.894 1.00 25.78 O ATOM 2801 CB THR A 680 5.780 17.645 68.592 1.00 26.26 C ATOM 2802 OG1 THR A 680 5.676 17.548 70.019 1.00 26.83 O ATOM 2803 CG2 THR A 680 5.949 16.233 68.033 1.00 27.03 C ATOM 2804 N TRP A 681 8.241 17.393 66.533 1.00 26.13 N ATOM 2805 CA TRP A 681 8.744 17.101 65.195 1.00 26.30 C ATOM 2806 C TRP A 681 8.414 15.675 64.784 1.00 27.08 C ATOM 2807 O TRP A 681 8.415 14.766 65.619 1.00 27.10 O ATOM 2808 CB TRP A 681 10.250 17.350 65.128 1.00 25.70 C ATOM 2809 CG TRP A 681 10.596 18.753 65.500 1.00 25.23 C ATOM 2810 CD1 TRP A 681 11.032 19.198 66.713 1.00 23.95 C ATOM 2811 CD2 TRP A 681 10.492 19.908 64.659 1.00 24.66 C ATOM 2812 NE1 TRP A 681 11.227 20.556 66.674 1.00 24.01 N ATOM 2813 CE2 TRP A 681 10.900 21.018 65.427 1.00 24.30 C ATOM 2814 CE3 TRP A 681 10.103 20.110 63.325 1.00 23.66 C ATOM 2815 CZ2 TRP A 681 10.927 22.318 64.909 1.00 25.23 C ATOM 2816 CZ3 TRP A 681 10.129 21.396 62.812 1.00 24.13 C ATOM 2817 CH2 TRP A 681 10.538 22.486 63.603 1.00 24.80 C ATOM 2818 N GLU A 682 8.123 15.489 63.498 1.00 27.96 N ATOM 2819 CA GLU A 682 7.829 14.162 62.950 1.00 28.91 C ATOM 2820 C GLU A 682 9.044 13.225 62.981 1.00 29.28 C ATOM 2821 O GLU A 682 10.184 13.675 63.076 1.00 29.32 O ATOM 2822 CB GLU A 682 7.266 14.278 61.530 1.00 28.96 C ATOM 2823 CG GLU A 682 5.876 14.912 61.461 1.00 30.54 C ATOM 2824 CD GLU A 682 4.858 14.211 62.357 1.00 32.68 C ATOM 2825 OE1 GLU A 682 4.516 13.037 62.082 1.00 33.52 O ATOM 2826 OE2 GLU A 682 4.397 14.837 63.336 1.00 33.25 O ATOM 2827 N LYS A 683 8.777 11.923 62.902 1.00 30.07 N ATOM 2828 CA LYS A 683 9.791 10.872 63.030 1.00 30.62 C ATOM 2829 C LYS A 683 11.050 11.128 62.208 1.00 30.71 C ATOM 2830 O LYS A 683 12.169 11.057 62.728 1.00 30.80 O ATOM 2831 CB LYS A 683 9.198 9.519 62.616 1.00 30.81 C ATOM 2832 CG LYS A 683 8.600 8.701 63.753 1.00 32.31 C ATOM 2833 CD LYS A 683 7.543 7.707 63.247 1.00 34.37 C ATOM 2834 CE LYS A 683 8.156 6.543 62.459 1.00 35.83 C ATOM 2835 NZ LYS A 683 7.128 5.539 62.017 1.00 35.88 N ATOM 2836 N ASP A 684 10.849 11.430 60.928 1.00 30.56 N ATOM 2837 CA ASP A 684 11.922 11.384 59.945 1.00 30.58 C ATOM 2838 C ASP A 684 12.362 12.743 59.410 1.00 30.11 C ATOM 2839 O ASP A 684 11.550 13.647 59.201 1.00 29.98 O ATOM 2840 CB ASP A 684 11.521 10.467 58.786 1.00 30.74 C ATOM 2841 CG ASP A 684 11.360 9.018 59.221 1.00 31.96 C ATOM 2842 OD1 ASP A 684 12.247 8.504 59.947 1.00 33.01 O ATOM 2843 OD2 ASP A 684 10.346 8.394 58.835 1.00 31.88 O ATOM 2844 N ILE A 685 13.667 12.862 59.201 1.00 29.62 N ATOM 2845 CA ILE A 685 14.262 14.033 58.587 1.00 29.16 C ATOM 2846 C ILE A 685 14.356 13.753 57.094 1.00 28.90 C ATOM 2847 O ILE A 685 15.032 12.807 56.669 1.00 28.84 O ATOM 2848 CB ILE A 685 15.660 14.342 59.186 1.00 29.07 C ATOM 2849 CG1 ILE A 685 15.540 14.663 60.679 1.00 29.10 C ATOM 2850 CG2 ILE A 685 16.318 15.509 58.460 1.00 29.66 C ATOM 2851 CD1 ILE A 685 16.869 14.938 61.369 1.00 29.03 C ATOM 2852 N LYS A 686 13.647 14.558 56.306 1.00 28.48 N ATOM 2853 CA LYS A 686 13.695 14.462 54.848 1.00 28.13 C ATOM 2854 C LYS A 686 15.033 15.007 54.340 1.00 27.72 C ATOM 2855 O LYS A 686 15.547 15.994 54.862 1.00 27.96 O ATOM 2856 CB LYS A 686 12.506 15.214 54.235 1.00 28.14 C ATOM 2857 CG LYS A 686 12.456 15.253 52.710 1.00 28.62 C ATOM 2858 CD LYS A 686 11.921 13.973 52.087 1.00 28.85 C ATOM 2859 CE LYS A 686 11.976 14.058 50.564 1.00 29.14 C ATOM 2860 NZ LYS A 686 11.580 12.784 49.911 1.00 28.93 N ATOM 2861 N ARG A 687 15.610 14.342 53.347 1.00 27.22 N ATOM 2862 CA ARG A 687 16.865 14.790 52.751 1.00 26.84 C ATOM 2863 C ARG A 687 16.721 15.030 51.255 1.00 27.11 C ATOM 2864 O ARG A 687 16.130 14.217 50.540 1.00 27.10 O ATOM 2865 CB ARG A 687 17.994 13.799 53.025 1.00 26.44 C ATOM 2866 CG ARG A 687 18.744 14.067 54.315 1.00 25.69 C ATOM 2867 CD ARG A 687 19.743 12.971 54.621 1.00 23.73 C ATOM 2868 NE ARG A 687 20.773 12.885 53.588 1.00 23.79 N ATOM 2869 CZ ARG A 687 21.680 11.916 53.499 1.00 23.09 C ATOM 2870 NH1 ARG A 687 21.707 10.925 54.381 1.00 23.76 N ATOM 2871 NH2 ARG A 687 22.563 11.935 52.520 1.00 22.74 N ATOM 2872 N TYR A 688 17.263 16.156 50.796 1.00 27.26 N ATOM 2873 CA TYR A 688 17.207 16.537 49.390 1.00 27.52 C ATOM 2874 C TYR A 688 18.610 16.628 48.783 1.00 27.88 C ATOM 2875 O TYR A 688 19.317 17.619 48.992 1.00 27.88 O ATOM 2876 CB TYR A 688 16.470 17.872 49.213 1.00 27.16 C ATOM 2877 CG TYR A 688 15.005 17.840 49.597 1.00 26.62 C ATOM 2878 CD1 TYR A 688 14.038 17.389 48.698 1.00 25.45 C ATOM 2879 CD2 TYR A 688 14.586 18.281 50.855 1.00 25.54 C ATOM 2880 CE1 TYR A 688 12.684 17.366 49.050 1.00 25.89 C ATOM 2881 CE2 TYR A 688 13.246 18.264 51.216 1.00 25.60 C ATOM 2882 CZ TYR A 688 12.296 17.805 50.310 1.00 26.63 C ATOM 2883 OH TYR A 688 10.963 17.782 50.668 1.00 26.80 O ATOM 2884 N PRO A 689 19.019 15.589 48.029 1.00 28.11 N ATOM 2885 CA PRO A 689 20.294 15.618 47.304 1.00 28.10 C ATOM 2886 C PRO A 689 20.379 16.735 46.247 1.00 28.25 C ATOM 2887 O PRO A 689 21.476 17.050 45.770 1.00 28.17 O ATOM 2888 CB PRO A 689 20.368 14.229 46.654 1.00 28.12 C ATOM 2889 CG PRO A 689 18.952 13.726 46.624 1.00 28.17 C ATOM 2890 CD PRO A 689 18.297 14.314 47.839 1.00 28.24 C ATOM 2891 N GLN A 690 19.238 17.331 45.900 1.00 28.21 N ATOM 2892 CA GLN A 690 19.198 18.448 44.948 1.00 28.24 C ATOM 2893 C GLN A 690 19.812 19.731 45.525 1.00 28.12 C ATOM 2894 O GLN A 690 20.129 20.661 44.779 1.00 28.20 O ATOM 2895 CB GLN A 690 17.761 18.739 44.481 1.00 28.38 C ATOM 2896 CG GLN A 690 17.037 17.593 43.773 1.00 29.01 C ATOM 2897 CD GLN A 690 16.384 16.611 44.744 1.00 30.57 C ATOM 2898 OE1 GLN A 690 16.304 16.861 45.952 1.00 30.90 O ATOM 2899 NE2 GLN A 690 15.930 15.478 44.217 1.00 31.01 N ATOM 2900 N VAL A 691 19.962 19.791 46.847 1.00 27.77 N ATOM 2901 CA VAL A 691 20.527 20.974 47.490 1.00 27.53 C ATOM 2902 C VAL A 691 21.675 20.607 48.424 1.00 27.48 C ATOM 2903 O VAL A 691 21.488 19.904 49.420 1.00 27.36 O ATOM 2904 CB VAL A 691 19.468 21.800 48.265 1.00 27.50 C ATOM 2905 CG1 VAL A 691 20.013 23.179 48.580 1.00 27.73 C ATOM 2906 CG2 VAL A 691 18.180 21.929 47.471 1.00 27.31 C ATOM 2907 N LYS A 692 22.860 21.107 48.091 1.00 27.46 N ATOM 2908 CA LYS A 692 24.068 20.805 48.838 1.00 27.30 C ATOM 2909 C LYS A 692 24.110 21.610 50.117 1.00 27.02 C ATOM 2910 O LYS A 692 23.570 22.720 50.177 1.00 27.33 O ATOM 2911 CB LYS A 692 25.318 21.110 47.999 1.00 27.52 C ATOM 2912 CG LYS A 692 25.509 20.228 46.773 1.00 27.99 C ATOM 2913 CD LYS A 692 25.791 18.782 47.170 1.00 29.81 C ATOM 2914 CE LYS A 692 26.051 17.912 45.950 1.00 29.90 C ATOM 2915 NZ LYS A 692 26.333 16.525 46.372 1.00 30.59 N ATOM 2916 N ASP A 693 24.756 21.038 51.131 1.00 26.46 N ATOM 2917 CA ASP A 693 25.038 21.724 52.389 1.00 26.08 C ATOM 2918 C ASP A 693 26.472 21.404 52.801 1.00 25.73 C ATOM 2919 O ASP A 693 26.805 20.260 53.105 1.00 25.62 O ATOM 2920 CB ASP A 693 24.022 21.308 53.464 1.00 26.08 C ATOM 2921 CG ASP A 693 24.465 21.651 54.882 1.00 26.58 C ATOM 2922 OD1 ASP A 693 25.171 22.661 55.093 1.00 27.15 O ATOM 2923 OD2 ASP A 693 24.084 20.899 55.801 1.00 27.65 O ATOM 2924 N VAL A 694 27.322 22.424 52.791 1.00 25.49 N ATOM 2925 CA VAL A 694 28.745 22.248 53.107 1.00 25.17 C ATOM 2926 C VAL A 694 29.037 22.589 54.576 1.00 25.16 C ATOM 2927 O VAL A 694 30.163 22.963 54.932 1.00 25.29 O ATOM 2928 CB VAL A 694 29.651 23.065 52.144 1.00 25.19 C ATOM 2929 CG1 VAL A 694 29.335 22.720 50.682 1.00 24.30 C ATOM 2930 CG2 VAL A 694 29.502 24.566 52.388 1.00 24.85 C ATOM 2931 N TYR A 695 28.004 22.448 55.415 1.00 24.76 N ATOM 2932 CA TYR A 695 28.067 22.709 56.861 1.00 24.22 C ATOM 2933 C TYR A 695 28.224 24.200 57.146 1.00 23.99 C ATOM 2934 O TYR A 695 29.211 24.662 57.733 1.00 23.98 O ATOM 2935 CB TYR A 695 29.137 21.850 57.554 1.00 24.11 C ATOM 2936 CG TYR A 695 29.067 21.849 59.064 1.00 24.22 C ATOM 2937 CD1 TYR A 695 27.879 21.530 59.733 1.00 24.31 C ATOM 2938 CD2 TYR A 695 30.193 22.156 59.831 1.00 23.99 C ATOM 2939 CE1 TYR A 695 27.812 21.525 61.128 1.00 23.96 C ATOM 2940 CE2 TYR A 695 30.139 22.153 61.226 1.00 23.84 C ATOM 2941 CZ TYR A 695 28.949 21.834 61.865 1.00 24.02 C ATOM 2942 OH TYR A 695 28.898 21.828 63.239 1.00 23.92 O ATOM 2943 N VAL A 696 27.217 24.947 56.711 1.00 23.62 N ATOM 2944 CA VAL A 696 27.194 26.394 56.834 1.00 22.96 C ATOM 2945 C VAL A 696 25.730 26.837 56.967 1.00 22.54 C ATOM 2946 O VAL A 696 24.817 26.106 56.578 1.00 22.03 O ATOM 2947 CB VAL A 696 27.936 27.068 55.631 1.00 22.87 C ATOM 2948 CG1 VAL A 696 27.168 26.878 54.309 1.00 23.20 C ATOM 2949 CG2 VAL A 696 28.220 28.540 55.903 1.00 22.58 C ATOM 2950 N GLN A 697 25.522 28.018 57.543 1.00 22.28 N ATOM 2951 CA GLN A 697 24.184 28.575 57.751 1.00 22.24 C ATOM 2952 C GLN A 697 23.454 28.865 56.434 1.00 22.48 C ATOM 2953 O GLN A 697 24.079 29.148 55.403 1.00 22.65 O ATOM 2954 CB GLN A 697 24.281 29.839 58.615 1.00 22.00 C ATOM 2955 CG GLN A 697 22.972 30.572 58.912 1.00 21.27 C ATOM 2956 CD GLN A 697 22.686 31.719 57.949 1.00 20.33 C ATOM 2957 OE1 GLN A 697 23.283 31.822 56.873 1.00 20.66 O ATOM 2958 NE2 GLN A 697 21.757 32.579 58.332 1.00 19.36 N ATOM 2959 N MET A 698 22.129 28.803 56.496 1.00 22.33 N ATOM 2960 CA MET A 698 21.271 29.061 55.358 1.00 22.60 C ATOM 2961 C MET A 698 20.074 29.880 55.801 1.00 22.71 C ATOM 2962 O MET A 698 19.766 29.948 56.988 1.00 23.00 O ATOM 2963 CB MET A 698 20.796 27.739 54.750 1.00 22.54 C ATOM 2964 CG MET A 698 19.911 26.898 55.667 1.00 22.25 C ATOM 2965 SD MET A 698 19.650 25.232 55.036 1.00 23.52 S ATOM 2966 CE MET A 698 21.133 24.397 55.613 1.00 20.73 C ATOM 2967 N SER A 699 19.406 30.514 54.847 1.00 23.03 N ATOM 2968 CA SER A 699 18.124 31.140 55.114 1.00 23.44 C ATOM 2969 C SER A 699 17.109 30.716 54.068 1.00 23.69 C ATOM 2970 O SER A 699 17.439 30.549 52.895 1.00 23.75 O ATOM 2971 CB SER A 699 18.243 32.665 55.183 1.00 23.38 C ATOM 2972 OG SER A 699 18.631 33.216 53.944 1.00 23.78 O ATOM 2973 N ALA A 700 15.878 30.521 54.514 1.00 23.94 N ATOM 2974 CA ALA A 700 14.792 30.143 53.632 1.00 24.25 C ATOM 2975 C ALA A 700 13.565 30.960 53.985 1.00 24.58 C ATOM 2976 O ALA A 700 13.333 31.269 55.159 1.00 24.28 O ATOM 2977 CB ALA A 700 14.493 28.656 53.749 1.00 23.92 C ATOM 2978 N ILE A 701 12.790 31.313 52.962 1.00 25.06 N ATOM 2979 CA ILE A 701 11.541 32.050 53.151 1.00 25.62 C ATOM 2980 C ILE A 701 10.404 31.543 52.267 1.00 26.12 C ATOM 2981 O ILE A 701 10.615 31.120 51.127 1.00 26.25 O ATOM 2982 CB ILE A 701 11.703 33.588 52.940 1.00 25.70 C ATOM 2983 CG1 ILE A 701 12.418 33.902 51.618 1.00 25.41 C ATOM 2984 CG2 ILE A 701 12.398 34.237 54.147 1.00 25.40 C ATOM 2985 CD1 ILE A 701 12.189 35.310 51.108 1.00 25.45 C ATOM 2986 N HIS A 702 9.201 31.581 52.830 1.00 26.55 N ATOM 2987 CA HIS A 702 7.967 31.384 52.097 1.00 27.00 C ATOM 2988 C HIS A 702 7.703 32.597 51.199 1.00 27.63 C ATOM 2989 O HIS A 702 7.992 33.738 51.571 1.00 27.59 O ATOM 2990 CB HIS A 702 6.826 31.217 53.096 1.00 26.88 C ATOM 2991 CG HIS A 702 5.516 30.867 52.471 1.00 26.99 C ATOM 2992 ND1 HIS A 702 4.568 31.816 52.150 1.00 27.26 N ATOM 2993 CD2 HIS A 702 4.989 29.672 52.115 1.00 27.42 C ATOM 2994 CE1 HIS A 702 3.514 31.220 51.621 1.00 27.71 C ATOM 2995 NE2 HIS A 702 3.745 29.919 51.588 1.00 28.48 N ATOM 2996 N THR A 703 7.167 32.344 50.010 1.00 28.42 N ATOM 2997 CA THR A 703 6.748 33.417 49.111 1.00 29.06 C ATOM 2998 C THR A 703 5.617 32.953 48.206 1.00 29.68 C ATOM 2999 O THR A 703 5.580 31.793 47.820 1.00 29.84 O ATOM 3000 CB THR A 703 7.919 33.952 48.251 1.00 29.01 C ATOM 3001 OG1 THR A 703 7.453 35.053 47.464 1.00 28.58 O ATOM 3002 CG2 THR A 703 8.488 32.861 47.332 1.00 28.40 C ATOM 3003 N MET A 704 4.708 33.860 47.864 1.00 30.37 N ATOM 3004 CA MET A 704 3.579 33.534 46.992 1.00 30.95 C ATOM 3005 C MET A 704 3.755 34.177 45.627 1.00 31.65 C ATOM 3006 O MET A 704 3.897 35.400 45.525 1.00 32.07 O ATOM 3007 CB MET A 704 2.257 33.994 47.614 1.00 30.63 C ATOM 3008 CG MET A 704 1.802 33.165 48.805 1.00 30.20 C ATOM 3009 SD MET A 704 1.565 31.422 48.419 1.00 29.61 S ATOM 3010 CE MET A 704 0.203 31.522 47.265 1.00 29.77 C ATOM 3011 N HIS A 705 3.747 33.356 44.581 1.00 32.21 N ATOM 3012 CA HIS A 705 3.848 33.863 43.215 1.00 32.81 C ATOM 3013 C HIS A 705 2.721 33.373 42.303 1.00 33.17 C ATOM 3014 O HIS A 705 2.657 32.196 41.938 1.00 33.18 O ATOM 3015 CB HIS A 705 5.219 33.544 42.611 1.00 32.82 C ATOM 3016 CG HIS A 705 5.522 34.319 41.368 1.00 32.82 C ATOM 3017 ND1 HIS A 705 5.440 33.767 40.108 1.00 32.78 N ATOM 3018 CD2 HIS A 705 5.893 35.610 41.190 1.00 32.98 C ATOM 3019 CE1 HIS A 705 5.760 34.680 39.208 1.00 33.05 C ATOM 3020 NE2 HIS A 705 6.035 35.808 39.838 1.00 33.05 N ATOM 3021 N GLU A 706 1.827 34.296 41.964 1.00 33.91 N ATOM 3022 CA GLU A 706 0.738 34.069 41.006 1.00 34.54 C ATOM 3023 C GLU A 706 −0.084 32.804 41.264 1.00 34.89 C ATOM 3024 O GLU A 706 −0.424 32.082 40.322 1.00 34.87 O ATOM 3025 CB GLU A 706 1.281 34.041 39.572 1.00 34.62 C ATOM 3026 CG GLU A 706 1.994 35.301 39.103 1.00 34.47 C ATOM 3027 CD GLU A 706 2.406 35.216 37.637 1.00 34.59 C ATOM 3028 OE1 GLU A 706 2.314 34.113 37.051 1.00 35.10 O ATOM 3029 OE2 GLU A 706 2.822 36.247 37.070 1.00 33.50 O ATOM 3030 N GLY A 707 −0.402 32.526 42.526 1.00 35.36 N ATOM 3031 CA GLY A 707 −1.252 31.376 42.834 1.00 35.89 C ATOM 3032 C GLY A 707 −0.817 30.493 43.984 1.00 36.11 C ATOM 3033 O GLY A 707 −1.468 30.489 45.027 1.00 36.49 O ATOM 3034 N LYS A 708 0.258 29.727 43.781 1.00 36.24 N ATOM 3035 CA LYS A 708 0.838 28.809 44.796 1.00 36.25 C ATOM 3036 C LYS A 708 2.226 28.390 44.300 1.00 35.76 C ATOM 3037 O LYS A 708 2.420 28.335 43.081 1.00 36.02 O ATOM 3038 CB LYS A 708 −0.010 27.526 44.968 1.00 36.49 C ATOM 3039 CG LYS A 708 −1.448 27.671 45.538 1.00 37.08 C ATOM 3040 CD LYS A 708 −1.504 27.832 47.078 1.00 37.89 C ATOM 3041 CE LYS A 708 −1.406 26.492 47.814 1.00 37.82 C ATOM 3042 NZ LYS A 708 −1.937 26.587 49.203 1.00 37.19 N ATOM 3043 N GLU A 709 3.212 28.118 45.171 1.00 35.06 N ATOM 3044 CA GLU A 709 3.295 28.503 46.587 1.00 33.89 C ATOM 3045 C GLU A 709 4.757 28.870 46.894 1.00 33.44 C ATOM 3046 O GLU A 709 5.020 29.968 47.375 1.00 33.62 O ATOM 3047 CB GLU A 709 2.810 27.421 47.559 1.00 33.76 C ATOM 3048 CG GLU A 709 3.063 27.838 49.015 1.00 33.61 C ATOM 3049 CD GLU A 709 2.382 26.986 50.069 1.00 33.57 C ATOM 3050 OE1 GLU A 709 1.636 26.050 49.717 1.00 33.17 O ATOM 3051 OE2 GLU A 709 2.597 27.275 51.271 1.00 32.91 O ATOM 3052 N TYR A 710 5.690 27.951 46.629 1.00 32.24 N ATOM 3053 CA TYR A 710 7.154 28.225 46.653 1.00 31.17 C ATOM 3054 C TYR A 710 7.866 28.511 47.992 1.00 30.36 C ATOM 3055 O TYR A 710 7.322 29.155 48.891 1.00 30.13 O ATOM 3056 CB TYR A 710 7.533 29.332 45.650 1.00 31.34 C ATOM 3057 CG TYR A 710 6.977 29.131 44.261 1.00 31.63 C ATOM 3058 CD1 TYR A 710 7.560 28.218 43.379 1.00 31.60 C ATOM 3059 CD2 TYR A 710 5.866 29.849 43.829 1.00 31.64 C ATOM 3060 CE1 TYR A 710 7.044 28.021 42.106 1.00 31.66 C ATOM 3061 CE2 TYR A 710 5.342 29.664 42.554 1.00 32.03 C ATOM 3062 CZ TYR A 710 5.936 28.749 41.700 1.00 31.58 C ATOM 3063 OH TYR A 710 5.423 28.565 40.438 1.00 31.67 O ATOM 3064 N ILE A 711 9.107 28.029 48.082 1.00 29.40 N ATOM 3065 CA ILE A 711 10.072 28.431 49.107 1.00 28.19 C ATOM 3066 C ILE A 711 11.390 28.813 48.439 1.00 27.72 C ATOM 3067 O ILE A 711 11.834 28.156 47.500 1.00 27.67 O ATOM 3068 CB ILE A 711 10.350 27.308 50.137 1.00 28.32 C ATOM 3069 CG1 ILE A 711 9.127 27.056 51.020 1.00 27.47 C ATOM 3070 CG2 ILE A 711 11.571 27.654 51.017 1.00 27.99 C ATOM 3071 CD1 ILE A 711 9.270 25.843 51.886 1.00 27.46 C ATOM 3072 N ILE A 712 12.013 29.874 48.938 1.00 27.17 N ATOM 3073 CA ILE A 712 13.318 30.310 48.461 1.00 26.48 C ATOM 3074 C ILE A 712 14.355 30.076 49.557 1.00 26.17 C ATOM 3075 O ILE A 712 14.196 30.543 50.687 1.00 26.14 O ATOM 3076 CB ILE A 712 13.298 31.799 48.050 1.00 26.61 C ATOM 3077 CG1 ILE A 712 12.251 32.041 46.961 1.00 26.21 C ATOM 3078 CG2 ILE A 712 14.668 32.243 47.572 1.00 26.53 C ATOM 3079 CD1 ILE A 712 11.979 33.494 46.696 1.00 26.70 C ATOM 3080 N LEU A 713 15.407 29.343 49.211 1.00 25.71 N ATOM 3081 CA LEU A 713 16.463 28.965 50.147 1.00 25.35 C ATOM 3082 C LEU A 713 17.799 29.450 49.591 1.00 25.14 C ATOM 3083 O LEU A 713 18.073 29.299 48.403 1.00 25.04 O ATOM 3084 CB LEU A 713 16.462 27.440 50.332 1.00 25.27 C ATOM 3085 CG LEU A 713 17.357 26.570 51.240 1.00 25.21 C ATOM 3086 CD1 LEU A 713 18.864 26.793 51.065 1.00 24.85 C ATOM 3087 CD2 LEU A 713 16.960 26.638 52.697 1.00 24.30 C ATOM 3088 N SER A 714 18.625 30.037 50.448 1.00 25.00 N ATOM 3089 CA SER A 714 19.942 30.498 50.029 1.00 24.85 C ATOM 3090 C SER A 714 21.084 29.931 50.881 1.00 24.82 C ATOM 3091 O SER A 714 21.061 30.021 52.113 1.00 24.66 O ATOM 3092 CB SER A 714 19.988 32.026 50.013 1.00 24.72 C ATOM 3093 OG SER A 714 21.243 32.478 49.542 1.00 24.67 O ATOM 3094 N ASN A 715 22.077 29.352 50.211 1.00 24.85 N ATOM 3095 CA ASN A 715 23.307 28.883 50.865 1.00 25.20 C ATOM 3096 C ASN A 715 24.463 28.716 49.878 1.00 25.35 C ATOM 3097 O ASN A 715 24.283 28.883 48.667 1.00 25.31 O ATOM 3098 CB ASN A 715 23.076 27.578 51.653 1.00 24.93 C ATOM 3099 CG ASN A 715 22.655 26.425 50.769 1.00 24.64 C ATOM 3100 OD1 ASN A 715 22.284 26.620 49.612 1.00 24.79 O ATOM 3101 ND2 ASN A 715 22.707 25.214 51.311 1.00 23.84 N ATOM 3102 N ALA A 716 25.642 28.397 50.408 1.00 25.53 N ATOM 3103 CA ALA A 716 26.821 28.133 49.586 1.00 25.91 C ATOM 3104 C ALA A 716 26.618 26.909 48.701 1.00 26.22 C ATOM 3105 O ALA A 716 26.096 25.888 49.149 1.00 26.23 O ATOM 3106 CB ALA A 716 28.048 27.961 50.458 1.00 25.73 C ATOM 3107 N GLY A 717 27.013 27.034 47.436 1.00 26.72 N ATOM 3108 CA GLY A 717 26.961 25.925 46.485 1.00 27.20 C ATOM 3109 C GLY A 717 28.117 24.967 46.691 1.00 27.74 C ATOM 3110 O GLY A 717 27.986 23.764 46.458 1.00 27.73 O ATOM 3111 N GLY A 718 29.247 25.502 47.142 1.00 28.24 N ATOM 3112 CA GLY A 718 30.439 24.696 47.375 1.00 29.34 C ATOM 3113 C GLY A 718 31.263 24.435 46.120 1.00 30.01 C ATOM 3114 O GLY A 718 31.059 25.096 45.095 1.00 29.99 O ATOM 3115 N PRO A 719 32.235 23.502 46.206 1.00 30.44 N ATOM 3116 CA PRO A 719 32.637 22.833 47.446 1.00 30.70 C ATOM 3117 C PRO A 719 33.302 23.868 48.342 1.00 31.04 C ATOM 3118 O PRO A 719 33.976 24.767 47.830 1.00 31.59 O ATOM 3119 CB PRO A 719 33.673 21.810 46.972 1.00 30.71 C ATOM 3120 CG PRO A 719 34.221 22.385 45.709 1.00 30.60 C ATOM 3121 CD PRO A 719 33.050 23.060 45.058 1.00 30.55 C ATOM 3122 N LYS A 720 33.121 23.759 49.654 1.00 30.77 N ATOM 3123 CA LYS A 720 33.574 24.810 50.577 1.00 30.85 C ATOM 3124 C LYS A 720 32.602 26.000 50.587 1.00 30.50 C ATOM 3125 O LYS A 720 31.617 26.024 49.841 1.00 30.39 O ATOM 3126 CB LYS A 720 34.997 25.294 50.241 1.00 30.80 C ATOM 3127 CG LYS A 720 36.109 24.270 50.450 1.00 31.45 C ATOM 3128 CD LYS A 720 37.471 24.856 50.041 1.00 31.58 C ATOM 3129 CE LYS A 720 38.634 24.181 50.774 1.00 32.90 C ATOM 3130 NZ LYS A 720 38.837 22.749 50.378 1.00 32.69 N ATOM 3131 N ARG A 721 32.889 26.988 51.433 1.00 30.16 N ATOM 3132 CA ARG A 721 31.994 28.124 51.619 1.00 29.69 C ATOM 3133 C ARG A 721 32.145 29.124 50.479 1.00 29.72 C ATOM 3134 O ARG A 721 32.746 30.197 50.628 1.00 29.73 O ATOM 3135 CB ARG A 721 32.199 28.761 52.997 1.00 29.60 C ATOM 3136 CG ARG A 721 31.831 27.821 54.138 1.00 28.98 C ATOM 3137 CD ARG A 721 32.058 28.449 55.498 1.00 28.72 C ATOM 3138 NE ARG A 721 31.618 27.565 56.577 1.00 27.93 N ATOM 3139 CZ ARG A 721 31.409 27.947 57.833 1.00 27.15 C ATOM 3140 NH1 ARG A 721 31.599 29.209 58.194 1.00 27.91 N ATOM 3141 NH2 ARG A 721 31.008 27.062 58.733 1.00 26.44 N ATOM 3142 N GLU A 722 31.575 28.747 49.336 1.00 29.54 N ATOM 3143 CA GLU A 722 31.720 29.491 48.096 1.00 29.56 C ATOM 3144 C GLU A 722 30.567 29.198 47.136 1.00 29.27 C ATOM 3145 O GLU A 722 29.791 28.259 47.351 1.00 28.91 O ATOM 3146 CB GLU A 722 33.069 29.163 47.437 1.00 29.33 C ATOM 3147 CG GLU A 722 33.116 27.813 46.726 1.00 29.98 C ATOM 3148 CD GLU A 722 34.514 27.418 46.285 1.00 30.27 C ATOM 3149 OE1 GLU A 722 35.348 28.313 46.029 1.00 31.99 O ATOM 3150 OE2 GLU A 722 34.780 26.203 46.188 1.00 30.74 O ATOM 3151 N ASN A 723 30.485 30.006 46.077 1.00 29.23 N ATOM 3152 CA ASN A 723 29.463 29.899 45.022 1.00 29.42 C ATOM 3153 C ASN A 723 28.032 30.004 45.547 1.00 29.03 C ATOM 3154 O ASN A 723 27.261 29.054 45.463 1.00 28.86 O ATOM 3155 CB ASN A 723 29.657 28.641 44.149 1.00 29.69 C ATOM 3156 CG ASN A 723 29.013 28.778 42.763 1.00 31.10 C ATOM 3157 OD1 ASN A 723 29.215 29.775 42.064 1.00 32.89 O ATOM 3158 ND2 ASN A 723 28.244 27.769 42.361 1.00 32.07 N ATOM 3159 N GLY A 724 27.695 31.175 46.081 1.00 28.87 N ATOM 3160 CA GLY A 724 26.376 31.439 46.642 1.00 28.51 C ATOM 3161 C GLY A 724 25.241 31.069 45.717 1.00 28.41 C ATOM 3162 O GLY A 724 25.237 31.444 44.548 1.00 28.25 O ATOM 3163 N MET A 725 24.280 30.324 46.254 1.00 28.44 N ATOM 3164 CA MET A 725 23.150 29.829 45.478 1.00 28.50 C ATOM 3165 C MET A 725 21.829 30.275 46.080 1.00 28.23 C ATOM 3166 O MET A 725 21.680 30.347 47.301 1.00 28.16 O ATOM 3167 CB MET A 725 23.171 28.299 45.410 1.00 28.52 C ATOM 3168 CG MET A 725 24.381 27.707 44.723 1.00 29.50 C ATOM 3169 SD MET A 725 24.497 28.173 42.991 1.00 31.56 S ATOM 3170 CE MET A 725 23.597 26.826 42.225 1.00 32.01 C ATOM 3171 N VAL A 726 20.876 30.581 45.209 1.00 27.97 N ATOM 3172 CA VAL A 726 19.499 30.767 45.624 1.00 27.67 C ATOM 3173 C VAL A 726 18.697 29.662 44.965 1.00 27.70 C ATOM 3174 O VAL A 726 18.625 29.594 43.738 1.00 28.03 O ATOM 3175 CB VAL A 726 18.953 32.146 45.228 1.00 27.71 C ATOM 3176 CG1 VAL A 726 17.551 32.317 45.746 1.00 27.74 C ATOM 3177 CG2 VAL A 726 19.838 33.257 45.793 1.00 27.29 C ATOM 3178 N HIS A 727 18.126 28.785 45.788 1.00 27.40 N ATOM 3179 CA HIS A 727 17.356 27.640 45.317 1.00 27.30 C ATOM 3180 C HIS A 727 15.849 27.899 45.416 1.00 27.52 C ATOM 3181 O HIS A 727 15.376 28.462 46.409 1.00 27.44 O ATOM 3182 CB HIS A 727 17.707 26.392 46.127 1.00 27.23 C ATOM 3183 CG HIS A 727 19.172 26.210 46.370 1.00 26.74 C ATOM 3184 ND1 HIS A 727 19.992 25.523 45.501 1.00 26.22 N ATOM 3185 CD2 HIS A 727 19.962 26.613 47.394 1.00 25.82 C ATOM 3186 CE1 HIS A 727 21.223 25.513 45.977 1.00 26.18 C ATOM 3187 NE2 HIS A 727 21.232 26.167 47.124 1.00 26.34 N ATOM 3188 N LEU A 728 15.103 27.471 44.394 1.00 27.48 N ATOM 3189 CA LEU A 728 13.656 27.672 44.345 1.00 27.77 C ATOM 3190 C LEU A 728 12.913 26.341 44.351 1.00 28.04 C ATOM 3191 O LEU A 728 13.161 25.488 43.507 1.00 27.99 O ATOM 3192 CB LEU A 728 13.272 28.496 43.105 1.00 27.85 C ATOM 3193 CG LEU A 728 11.793 28.690 42.727 1.00 27.49 C ATOM 3194 CD1 LEU A 728 11.033 29.499 43.761 1.00 25.66 C ATOM 3195 CD2 LEU A 728 11.681 29.350 41.358 1.00 27.66 C ATOM 3196 N ALA A 729 12.009 26.168 45.310 1.00 28.51 N ATOM 3197 CA ALA A 729 11.194 24.953 45.387 1.00 29.38 C ATOM 3198 C ALA A 729 9.705 25.259 45.332 1.00 29.81 C ATOM 3199 O ALA A 729 9.241 26.206 45.962 1.00 29.89 O ATOM 3200 CB ALA A 729 11.509 24.169 46.648 1.00 29.16 C ATOM 3201 N ARG A 730 8.960 24.456 44.579 1.00 30.58 N ATOM 3202 CA ARG A 730 7.502 24.524 44.611 1.00 31.66 C ATOM 3203 C ARG A 730 7.016 23.727 45.806 1.00 32.02 C ATOM 3204 O ARG A 730 7.512 22.624 46.067 1.00 32.00 O ATOM 3205 CB ARG A 730 6.893 23.966 43.318 1.00 31.51 C ATOM 3206 CG ARG A 730 5.363 23.818 43.342 1.00 32.21 C ATOM 3207 CD ARG A 730 4.786 23.385 41.986 1.00 32.63 C ATOM 3208 NE ARG A 730 5.296 22.085 41.539 1.00 33.64 N ATOM 3209 CZ ARG A 730 6.117 21.912 40.506 1.00 33.62 C ATOM 3210 NH1 ARG A 730 6.522 22.952 39.790 1.00 33.72 N ATOM 3211 NH2 ARG A 730 6.532 20.693 40.186 1.00 33.88 N ATOM 3212 N VAL A 731 6.065 24.292 46.542 1.00 32.68 N ATOM 3213 CA VAL A 731 5.385 23.541 47.586 1.00 33.65 C ATOM 3214 C VAL A 731 4.257 22.735 46.947 1.00 34.53 C ATOM 3215 O VAL A 731 3.318 23.301 46.383 1.00 34.33 O ATOM 3216 CB VAL A 731 4.824 24.449 48.689 1.00 33.49 C ATOM 3217 CG1 VAL A 731 4.184 23.611 49.790 1.00 33.14 C ATOM 3218 CG2 VAL A 731 5.924 25.334 49.255 1.00 33.41 C ATOM 3219 N GLU A 732 4.369 21.414 47.046 1.00 35.74 N ATOM 3220 CA GLU A 732 3.415 20.500 46.433 1.00 37.09 C ATOM 3221 C GLU A 732 2.117 20.330 47.217 1.00 38.22 C ATOM 3222 O GLU A 732 1.159 21.085 47.032 1.00 38.53 O ATOM 3223 CB GLU A 732 4.048 19.115 46.193 1.00 36.90 C ATOM 3224 CG GLU A 732 5.187 19.072 45.181 1.00 36.31 C ATOM 3225 CD GLU A 732 4.789 19.550 43.791 1.00 35.68 C ATOM 3226 OE1 GLU A 732 3.578 19.609 43.483 1.00 34.90 O ATOM 3227 OE2 GLU A 732 5.703 19.865 43.004 1.00 35.40 O ATOM 3228 N GLU A 733 2.100 19.330 48.093 1.00 39.63 N ATOM 3229 CA GLU A 733 0.854 18.702 48.512 1.00 40.84 C ATOM 3230 C GLU A 733 0.825 18.350 49.994 1.00 41.32 C ATOM 3231 O GLU A 733 −0.004 18.881 50.734 1.00 41.78 O ATOM 3232 CB GLU A 733 0.604 17.447 47.657 1.00 41.08 C ATOM 3233 CG GLU A 733 1.665 16.355 47.838 1.00 42.03 C ATOM 3234 CD GLU A 733 1.976 15.606 46.564 1.00 43.87 C ATOM 3235 OE1 GLU A 733 1.126 14.806 46.116 1.00 45.07 O ATOM 3236 OE2 GLU A 733 3.083 15.802 46.017 1.00 44.28 O ATOM 3237 N ASN A 734 1.734 17.473 50.426 1.00 41.94 N ATOM 3238 CA ASN A 734 1.642 16.859 51.763 1.00 42.57 C ATOM 3239 C ASN A 734 2.939 16.672 52.584 1.00 42.56 C ATOM 3240 O ASN A 734 3.195 15.570 53.085 1.00 42.70 O ATOM 3241 CB ASN A 734 0.906 15.509 51.670 1.00 42.74 C ATOM 3242 CG ASN A 734 −0.504 15.564 52.237 1.00 43.60 C ATOM 3243 OD1 ASN A 734 −0.730 16.072 53.341 1.00 44.32 O ATOM 3244 ND2 ASN A 734 −1.460 15.016 51.489 1.00 43.91 N ATOM 3245 N GLY A 735 3.761 17.711 52.736 1.00 42.53 N ATOM 3246 CA GLY A 735 3.669 18.979 52.012 1.00 42.26 C ATOM 3247 C GLY A 735 5.000 19.056 51.303 1.00 42.05 C ATOM 3248 O GLY A 735 5.971 19.608 51.830 1.00 42.01 O ATOM 3249 N GLU A 736 5.049 18.465 50.116 1.00 41.76 N ATOM 3250 CA GLU A 736 6.324 18.130 49.490 1.00 41.38 C ATOM 3251 C GLU A 736 6.964 19.291 48.733 1.00 40.68 C ATOM 3252 O GLU A 736 6.293 20.260 48.356 1.00 40.59 O ATOM 3253 CB GLU A 736 6.172 16.886 48.610 1.00 41.61 C ATOM 3254 CG GLU A 736 5.622 15.691 49.387 1.00 42.97 C ATOM 3255 CD GLU A 736 5.690 14.386 48.621 1.00 44.95 C ATOM 3256 OE1 GLU A 736 6.402 14.321 47.592 1.00 45.28 O ATOM 3257 OE2 GLU A 736 5.024 13.416 49.059 1.00 46.05 O ATOM 3258 N LEU A 737 8.275 19.183 48.533 1.00 39.73 N ATOM 3259 CA LEU A 737 9.046 20.227 47.882 1.00 38.85 C ATOM 3260 C LEU A 737 9.680 19.709 46.599 1.00 38.35 C ATOM 3261 O LEU A 737 10.304 18.647 46.589 1.00 38.38 O ATOM 3262 CB LEU A 737 10.119 20.766 48.832 1.00 38.82 C ATOM 3263 CG LEU A 737 9.661 21.231 50.220 1.00 38.66 C ATOM 3264 CD1 LEU A 737 10.852 21.421 51.135 1.00 38.55 C ATOM 3265 CD2 LEU A 737 8.829 22.510 50.138 1.00 38.52 C ATOM 3266 N THR A 738 9.504 20.460 45.518 1.00 37.55 N ATOM 3267 CA THR A 738 10.124 20.129 44.246 1.00 36.79 C ATOM 3268 C THR A 738 11.096 21.234 43.876 1.00 36.40 C ATOM 3269 O THR A 738 10.691 22.360 43.583 1.00 36.39 O ATOM 3270 CB THR A 738 9.078 19.937 43.131 1.00 36.71 C ATOM 3271 OG1 THR A 738 8.106 18.974 43.552 1.00 36.46 O ATOM 3272 CG2 THR A 738 9.734 19.446 41.852 1.00 36.74 C ATOM 3273 N TRP A 739 12.380 20.898 43.893 1.00 35.93 N ATOM 3274 CA TRP A 739 13.438 21.852 43.585 1.00 35.44 C ATOM 3275 C TRP A 739 13.505 22.125 42.098 1.00 35.52 C ATOM 3276 O TRP A 739 13.827 21.239 41.310 1.00 35.58 O ATOM 3277 CB TRP A 739 14.779 21.371 44.147 1.00 35.01 C ATOM 3278 CG TRP A 739 14.752 21.381 45.630 1.00 34.52 C ATOM 3279 CD1 TRP A 739 14.635 20.304 46.453 1.00 34.23 C ATOM 3280 CD2 TRP A 739 14.773 22.537 46.477 1.00 34.30 C ATOM 3281 NE1 TRP A 739 14.608 20.713 47.764 1.00 34.23 N ATOM 3282 CE2 TRP A 739 14.690 22.079 47.806 1.00 34.00 C ATOM 3283 CE3 TRP A 739 14.871 23.916 46.241 1.00 34.29 C ATOM 3284 CZ2 TRP A 739 14.703 22.948 48.897 1.00 34.13 C ATOM 3285 CZ3 TRP A 739 14.876 24.779 47.326 1.00 34.36 C ATOM 3286 CH2 TRP A 739 14.797 24.291 48.639 1.00 34.36 C ATOM 3287 N LEU A 740 13.194 23.367 41.733 1.00 35.72 N ATOM 3288 CA LEU A 740 12.974 23.742 40.340 1.00 35.84 C ATOM 3289 C LEU A 740 14.180 24.390 39.683 1.00 36.05 C ATOM 3290 O LEU A 740 14.465 24.130 38.510 1.00 35.95 O ATOM 3291 CB LEU A 740 11.747 24.648 40.217 1.00 35.90 C ATOM 3292 CG LEU A 740 10.375 24.007 40.461 1.00 36.16 C ATOM 3293 CD1 LEU A 740 9.303 25.082 40.577 1.00 36.47 C ATOM 3294 CD2 LEU A 740 10.013 22.989 39.368 1.00 36.32 C ATOM 3295 N LYS A 741 14.878 25.247 40.424 1.00 36.22 N ATOM 3296 CA LYS A 741 16.068 25.890 39.882 1.00 36.32 C ATOM 3297 C LYS A 741 17.078 26.300 40.945 1.00 35.92 C ATOM 3298 O LYS A 741 16.724 26.541 42.105 1.00 35.96 O ATOM 3299 CB LYS A 741 15.697 27.073 38.981 1.00 36.61 C ATOM 3300 CG LYS A 741 16.420 27.018 37.644 1.00 38.19 C ATOM 3301 CD LYS A 741 16.146 28.235 36.800 1.00 41.04 C ATOM 3302 CE LYS A 741 17.165 28.347 35.679 1.00 42.69 C ATOM 3303 NZ LYS A 741 17.545 29.779 35.497 1.00 44.09 N ATOM 3304 N HIS A 742 18.340 26.369 40.524 1.00 35.48 N ATOM 3305 CA HIS A 742 19.465 26.629 41.411 1.00 34.81 C ATOM 3306 C HIS A 742 20.356 27.676 40.759 1.00 34.51 C ATOM 3307 O HIS A 742 21.215 27.346 39.941 1.00 34.81 O ATOM 3308 CB HIS A 742 20.243 25.332 41.672 1.00 34.72 C ATOM 3309 CG HIS A 742 19.367 24.152 41.963 1.00 34.17 C ATOM 3310 ND1 HIS A 742 18.881 23.878 43.224 1.00 34.17 N ATOM 3311 CD2 HIS A 742 18.876 23.184 41.153 1.00 33.89 C ATOM 3312 CE1 HIS A 742 18.135 22.788 43.181 1.00 33.97 C ATOM 3313 NE2 HIS A 742 18.112 22.348 41.935 1.00 34.13 N ATOM 3314 N ASN A 743 20.144 28.939 41.124 1.00 33.99 N ATOM 3315 CA ASN A 743 20.777 30.067 40.441 1.00 33.52 C ATOM 3316 C ASN A 743 21.896 30.722 41.245 1.00 32.97 C ATOM 3317 O ASN A 743 21.674 31.112 42.394 1.00 33.20 O ATOM 3318 CB ASN A 743 19.724 31.117 40.075 1.00 33.64 C ATOM 3319 CG ASN A 743 18.794 30.655 38.968 1.00 34.30 C ATOM 3320 OD1 ASN A 743 19.239 30.182 37.916 1.00 34.90 O ATOM 3321 ND2 ASN A 743 17.491 30.800 39.194 1.00 34.91 N ATOM 3322 N PRO A 744 23.098 30.860 40.640 1.00 32.26 N ATOM 3323 CA PRO A 744 24.236 31.475 41.326 1.00 31.63 C ATOM 3324 C PRO A 744 23.997 32.959 41.570 1.00 31.15 C ATOM 3325 O PRO A 744 23.542 33.667 40.676 1.00 31.05 O ATOM 3326 CB PRO A 744 25.405 31.278 40.342 1.00 31.83 C ATOM 3327 CG PRO A 744 24.931 30.274 39.337 1.00 31.74 C ATOM 3328 CD PRO A 744 23.448 30.451 39.266 1.00 32.17 C ATOM 3329 N ILE A 745 24.294 33.417 42.782 1.00 30.81 N ATOM 3330 CA ILE A 745 24.078 34.811 43.151 1.00 30.35 C ATOM 3331 C ILE A 745 25.383 35.532 43.509 1.00 30.17 C ATOM 3332 O ILE A 745 25.473 36.757 43.402 1.00 29.97 O ATOM 3333 CB ILE A 745 23.007 34.950 44.277 1.00 30.41 C ATOM 3334 CG1 ILE A 745 22.519 36.396 44.381 1.00 29.88 C ATOM 3335 CG2 ILE A 745 23.524 34.414 45.624 1.00 30.54 C ATOM 3336 CD1 ILE A 745 21.113 36.523 44.841 1.00 29.70 C ATOM 3337 N GLN A 746 26.387 34.763 43.926 1.00 29.93 N ATOM 3338 CA GLN A 746 27.687 35.319 44.273 1.00 29.60 C ATOM 3339 C GLN A 746 28.801 34.293 44.111 1.00 29.73 C ATOM 3340 O GLN A 746 28.825 33.265 44.799 1.00 29.82 O ATOM 3341 CB GLN A 746 27.674 35.882 45.699 1.00 29.39 C ATOM 3342 CG GLN A 746 28.993 36.493 46.142 1.00 29.02 C ATOM 3343 CD GLN A 746 29.435 37.643 45.252 1.00 28.60 C ATOM 3344 OE1 GLN A 746 28.836 38.721 45.267 1.00 28.66 O ATOM 3345 NE2 GLN A 746 30.486 37.419 44.473 1.00 26.94 N ATOM 3346 N LYS A 747 29.715 34.584 43.191 1.00 29.76 N ATOM 3347 CA LYS A 747 30.919 33.791 42.999 1.00 29.99 C ATOM 3348 C LYS A 747 31.947 34.170 44.059 1.00 29.68 C ATOM 3349 O LYS A 747 31.830 35.218 44.691 1.00 29.60 O ATOM 3350 CB LYS A 747 31.495 34.035 41.604 1.00 30.35 C ATOM 3351 CG LYS A 747 30.527 33.715 40.475 1.00 31.96 C ATOM 3352 CD LYS A 747 31.024 34.293 39.156 1.00 34.52 C ATOM 3353 CE LYS A 747 29.860 34.748 38.273 1.00 35.36 C ATOM 3354 NZ LYS A 747 30.345 35.313 36.979 1.00 35.56 N ATOM 3355 N GLY A 748 32.956 33.320 44.241 1.00 29.43 N ATOM 3356 CA GLY A 748 33.984 33.542 45.259 1.00 28.77 C ATOM 3357 C GLY A 748 33.491 33.084 46.618 1.00 28.41 C ATOM 3358 O GLY A 748 32.558 32.286 46.699 1.00 28.29 O ATOM 3359 N GLU A 749 34.113 33.590 47.681 1.00 28.06 N ATOM 3360 CA GLU A 749 33.739 33.233 49.051 1.00 28.06 C ATOM 3361 C GLU A 749 32.268 33.541 49.355 1.00 27.51 C ATOM 3362 O GLU A 749 31.776 34.618 49.028 1.00 27.33 O ATOM 3363 CB GLU A 749 34.646 33.955 50.055 1.00 28.41 C ATOM 3364 CG GLU A 749 36.027 33.322 50.235 1.00 30.01 C ATOM 3365 CD GLU A 749 35.970 31.954 50.899 1.00 32.99 C ATOM 3366 OE1 GLU A 749 35.064 31.726 51.743 1.00 35.42 O ATOM 3367 OE2 GLU A 749 36.829 31.102 50.580 1.00 33.53 O ATOM 3368 N PHE A 750 31.569 32.587 49.967 1.00 26.86 N ATOM 3369 CA PHE A 750 30.167 32.787 50.336 1.00 26.31 C ATOM 3370 C PHE A 750 29.764 31.968 51.555 1.00 26.04 C ATOM 3371 O PHE A 750 29.811 30.740 51.524 1.00 26.24 O ATOM 3372 CB PHE A 750 29.244 32.439 49.163 1.00 26.12 C ATOM 3373 CG PHE A 750 27.804 32.806 49.394 1.00 25.77 C ATOM 3374 CD1 PHE A 750 27.311 34.034 48.960 1.00 24.39 C ATOM 3375 CD2 PHE A 750 26.939 31.926 50.049 1.00 25.14 C ATOM 3376 CE1 PHE A 750 25.980 34.371 49.163 1.00 24.41 C ATOM 3377 CE2 PHE A 750 25.606 32.260 50.257 1.00 24.53 C ATOM 3378 CZ PHE A 750 25.125 33.484 49.814 1.00 24.30 C ATOM 3379 N ALA A 751 29.342 32.645 52.616 1.00 25.60 N ATOM 3380 CA ALA A 751 28.938 31.948 53.835 1.00 25.29 C ATOM 3381 C ALA A 751 27.509 32.316 54.269 1.00 24.92 C ATOM 3382 O ALA A 751 26.566 32.089 53.515 1.00 25.03 O ATOM 3383 CB ALA A 751 29.963 32.173 54.951 1.00 25.27 C ATOM 3384 N TYR A 752 27.351 32.896 55.456 1.00 24.51 N ATOM 3385 CA TYR A 752 26.027 33.181 56.013 1.00 24.29 C ATOM 3386 C TYR A 752 25.229 34.163 55.170 1.00 24.28 C ATOM 3387 O TYR A 752 25.799 34.934 54.397 1.00 24.50 O ATOM 3388 CB TYR A 752 26.143 33.702 57.445 1.00 24.20 C ATOM 3389 CG TYR A 752 26.530 32.663 58.476 1.00 23.96 C ATOM 3390 CD1 TYR A 752 26.060 32.753 59.783 1.00 23.48 C ATOM 3391 CD2 TYR A 752 27.365 31.588 58.146 1.00 23.60 C ATOM 3392 CE1 TYR A 752 26.414 31.811 60.738 1.00 24.01 C ATOM 3393 CE2 TYR A 752 27.725 30.640 59.092 1.00 23.59 C ATOM 3394 CZ TYR A 752 27.245 30.757 60.385 1.00 24.10 C ATOM 3395 OH TYR A 752 27.591 29.817 61.325 1.00 24.41 O ATOM 3396 N ASN A 753 23.908 34.131 55.329 1.00 24.12 N ATOM 3397 CA ASN A 753 23.001 34.935 54.509 1.00 23.99 C ATOM 3398 C ASN A 753 21.586 34.980 55.073 1.00 23.83 C ATOM 3399 O ASN A 753 21.189 34.101 55.844 1.00 23.40 O ATOM 3400 CB ASN A 753 22.963 34.406 53.068 1.00 23.96 C ATOM 3401 CG ASN A 753 22.316 33.044 52.968 1.00 23.99 C ATOM 3402 OD1 ASN A 753 21.088 32.928 52.934 1.00 23.59 O ATOM 3403 ND2 ASN A 753 23.141 31.997 52.920 1.00 23.78 N ATOM 3404 N SER A 754 20.830 36.000 54.663 1.00 23.78 N ATOM 3405 CA SER A 754 19.449 36.182 55.110 1.00 23.84 C ATOM 3406 C SER A 754 18.556 36.746 54.001 1.00 23.94 C ATOM 3407 O SER A 754 18.852 37.794 53.415 1.00 23.85 O ATOM 3408 CB SER A 754 19.395 37.074 56.351 1.00 23.70 C ATOM 3409 OG SER A 754 18.113 37.042 56.951 1.00 23.74 O ATOM 3410 N LEU A 755 17.468 36.033 53.722 1.00 24.16 N ATOM 3411 CA LEU A 755 16.509 36.426 52.692 1.00 24.50 C ATOM 3412 C LEU A 755 15.300 37.159 53.264 1.00 24.79 C ATOM 3413 O LEU A 755 14.854 36.875 54.376 1.00 24.62 O ATOM 3414 CB LEU A 755 16.011 35.194 51.938 1.00 24.33 C ATOM 3415 CG LEU A 755 16.972 34.364 51.094 1.00 24.06 C ATOM 3416 CD1 LEU A 755 16.331 33.016 50.817 1.00 23.29 C ATOM 3417 CD2 LEU A 755 17.339 35.076 49.794 1.00 22.82 C ATOM 3418 N GLN A 756 14.773 38.098 52.485 1.00 25.28 N ATOM 3419 CA GLN A 756 13.483 38.711 52.779 1.00 25.79 C ATOM 3420 C GLN A 756 12.692 38.940 51.507 1.00 26.50 C ATOM 3421 O GLN A 756 13.257 39.130 50.424 1.00 26.40 O ATOM 3422 CB GLN A 756 13.635 40.037 53.533 1.00 25.58 C ATOM 3423 CG GLN A 756 13.944 39.899 55.019 1.00 24.84 C ATOM 3424 CD GLN A 756 12.816 39.270 55.819 1.00 23.88 C ATOM 3425 OE1 GLN A 756 11.903 39.963 56.268 1.00 23.82 O ATOM 3426 NE2 GLN A 756 12.890 37.954 56.023 1.00 21.62 N ATOM 3427 N GLU A 757 11.374 38.895 51.660 1.00 27.24 N ATOM 3428 CA GLU A 757 10.438 39.295 50.631 1.00 28.11 C ATOM 3429 C GLU A 757 10.424 40.817 50.655 1.00 28.21 C ATOM 3430 O GLU A 757 10.441 41.419 51.729 1.00 28.26 O ATOM 3431 CB GLU A 757 9.060 38.755 50.991 1.00 28.00 C ATOM 3432 CG GLU A 757 8.121 38.508 49.826 1.00 29.19 C ATOM 3433 CD GLU A 757 6.898 37.698 50.242 1.00 29.26 C ATOM 3434 OE1 GLU A 757 6.560 37.703 51.447 1.00 31.25 O ATOM 3435 OE2 GLU A 757 6.271 37.058 49.370 1.00 31.40 O ATOM 3436 N LEU A 758 10.408 41.441 49.482 1.00 28.62 N ATOM 3437 CA LEU A 758 10.467 42.899 49.404 1.00 28.96 C ATOM 3438 C LEU A 758 9.153 43.552 48.991 1.00 29.28 C ATOM 3439 O LEU A 758 8.974 44.757 49.165 1.00 29.40 O ATOM 3440 CB LEU A 758 11.602 43.344 48.477 1.00 28.80 C ATOM 3441 CG LEU A 758 12.901 43.843 49.120 1.00 29.29 C ATOM 3442 CD1 LEU A 758 13.366 42.977 50.293 1.00 28.64 C ATOM 3443 CD2 LEU A 758 13.988 43.953 48.064 1.00 28.93 C ATOM 3444 N GLY A 759 8.232 42.751 48.468 1.00 29.68 N ATOM 3445 CA GLY A 759 7.006 43.272 47.890 1.00 30.12 C ATOM 3446 C GLY A 759 7.180 43.406 46.392 1.00 30.55 C ATOM 3447 O GLY A 759 8.305 43.507 45.895 1.00 30.45 O ATOM 3448 N ASN A 760 6.062 43.371 45.672 1.00 30.78 N ATOM 3449 CA ASN A 760 6.054 43.572 44.224 1.00 30.87 C ATOM 3450 C ASN A 760 6.916 42.592 43.426 1.00 30.84 C ATOM 3451 O ASN A 760 7.468 42.956 42.387 1.00 31.30 O ATOM 3452 CB ASN A 760 6.444 45.016 43.889 1.00 30.82 C ATOM 3453 CG ASN A 760 5.573 46.037 44.595 1.00 31.00 C ATOM 3454 OD1 ASN A 760 4.348 45.901 44.650 1.00 30.22 O ATOM 3455 ND2 ASN A 760 6.203 47.078 45.131 1.00 31.07 N ATOM 3456 N GLY A 761 7.017 41.354 43.903 1.00 30.83 N ATOM 3457 CA GLY A 761 7.779 40.307 43.211 1.00 30.33 C ATOM 3458 C GLY A 761 9.293 40.464 43.279 1.00 30.11 C ATOM 3459 O GLY A 761 10.017 39.864 42.481 1.00 30.25 O ATOM 3460 N GLU A 762 9.765 41.273 44.227 1.00 29.67 N ATOM 3461 CA GLU A 762 11.194 41.473 44.464 1.00 29.39 C ATOM 3462 C GLU A 762 11.620 40.872 45.796 1.00 28.69 C ATOM 3463 O GLU A 762 10.803 40.697 46.701 1.00 28.61 O ATOM 3464 CB GLU A 762 11.564 42.962 44.425 1.00 29.53 C ATOM 3465 CG GLU A 762 11.362 43.622 43.061 1.00 29.98 C ATOM 3466 CD GLU A 762 12.089 44.953 42.913 1.00 30.13 C ATOM 3467 OE1 GLU A 762 12.521 45.544 43.928 1.00 30.44 O ATOM 3468 OE2 GLU A 762 12.223 45.417 41.759 1.00 31.91 O ATOM 3469 N TYR A 763 12.909 40.557 45.901 1.00 28.18 N ATOM 3470 CA TYR A 763 13.475 39.930 47.088 1.00 27.55 C ATOM 3471 C TYR A 763 14.837 40.519 47.420 1.00 27.34 C ATOM 3472 O TYR A 763 15.532 41.029 46.540 1.00 27.23 O ATOM 3473 CB TYR A 763 13.603 38.421 46.885 1.00 27.43 C ATOM 3474 CG TYR A 763 12.309 37.738 46.505 1.00 27.27 C ATOM 3475 CD1 TYR A 763 11.959 37.565 45.165 1.00 27.29 C ATOM 3476 CD2 TYR A 763 11.431 37.269 47.483 1.00 27.11 C ATOM 3477 CE1 TYR A 763 10.769 36.944 44.810 1.00 27.59 C ATOM 3478 CE2 TYR A 763 10.242 36.647 47.139 1.00 26.62 C ATOM 3479 CZ TYR A 763 9.918 36.483 45.802 1.00 27.17 C ATOM 3480 OH TYR A 763 8.745 35.861 45.446 1.00 26.84 O ATOM 3481 N GLY A 764 15.211 40.439 48.696 1.00 27.17 N ATOM 3482 CA GLY A 764 16.488 40.969 49.174 1.00 26.79 C ATOM 3483 C GLY A 764 17.342 39.934 49.884 1.00 26.64 C ATOM 3484 O GLY A 764 16.833 38.940 50.413 1.00 26.42 O ATOM 3485 N ILE A 765 18.649 40.167 49.895 1.00 26.56 N ATOM 3486 CA ILE A 765 19.569 39.246 50.551 1.00 26.59 C ATOM 3487 C ILE A 765 20.795 39.936 51.140 1.00 26.78 C ATOM 3488 O ILE A 765 21.483 40.694 50.462 1.00 26.90 O ATOM 3489 CB ILE A 765 19.979 38.063 49.623 1.00 26.34 C ATOM 3490 CG1 ILE A 765 20.648 36.949 50.443 1.00 26.04 C ATOM 3491 CG2 ILE A 765 20.835 38.550 48.443 1.00 26.28 C ATOM 3492 CD1 ILE A 765 21.025 35.708 49.648 1.00 26.28 C ATOM 3493 N LEU A 766 21.032 39.679 52.422 1.00 27.11 N ATOM 3494 CA LEU A 766 22.256 40.092 53.094 1.00 27.30 C ATOM 3495 C LEU A 766 23.124 38.850 53.275 1.00 27.85 C ATOM 3496 O LEU A 766 22.690 37.870 53.889 1.00 27.85 O ATOM 3497 CB LEU A 766 21.928 40.739 54.441 1.00 27.07 C ATOM 3498 CG LEU A 766 23.044 41.393 55.261 1.00 26.94 C ATOM 3499 CD1 LEU A 766 23.665 42.592 54.553 1.00 25.88 C ATOM 3500 CD2 LEU A 766 22.499 41.799 56.618 1.00 26.80 C ATOM 3501 N TYR A 767 24.335 38.880 52.722 1.00 28.47 N ATOM 3502 CA TYR A 767 25.208 37.706 52.750 1.00 28.99 C ATOM 3503 C TYR A 767 26.667 38.001 53.086 1.00 29.39 C ATOM 3504 O TYR A 767 27.159 39.112 52.876 1.00 29.28 O ATOM 3505 CB TYR A 767 25.122 36.932 51.430 1.00 28.98 C ATOM 3506 CG TYR A 767 25.578 37.709 50.216 1.00 29.26 C ATOM 3507 CD1 TYR A 767 26.928 37.780 49.875 1.00 28.30 C ATOM 3508 CD2 TYR A 767 24.656 38.366 49.401 1.00 29.67 C ATOM 3509 CE1 TYR A 767 27.349 38.491 48.767 1.00 28.66 C ATOM 3510 CE2 TYR A 767 25.069 39.081 48.282 1.00 29.59 C ATOM 3511 CZ TYR A 767 26.418 39.135 47.972 1.00 29.43 C ATOM 3512 OH TYR A 767 26.836 39.839 46.868 1.00 29.26 O ATOM 3513 N GLU A 768 27.340 36.974 53.604 1.00 29.91 N ATOM 3514 CA GLU A 768 28.771 36.998 53.868 1.00 30.18 C ATOM 3515 C GLU A 768 29.555 36.679 52.600 1.00 30.96 C ATOM 3516 O GLU A 768 29.289 35.674 51.926 1.00 30.73 O ATOM 3517 CB GLU A 768 29.124 35.965 54.936 1.00 30.20 C ATOM 3518 CG GLU A 768 28.623 36.302 56.330 1.00 29.67 C ATOM 3519 CD GLU A 768 29.176 35.366 57.390 1.00 29.40 C ATOM 3520 OE1 GLU A 768 29.245 34.141 57.159 1.00 27.76 O ATOM 3521 OE2 GLU A 768 29.543 35.857 58.468 1.00 28.50 O ATOM 3522 N HIS A 769 30.522 37.538 52.290 1.00 31.73 N ATOM 3523 CA HIS A 769 31.411 37.363 51.142 1.00 32.59 C ATOM 3524 C HIS A 769 32.636 38.254 51.311 1.00 32.88 C ATOM 3525 O HIS A 769 32.556 39.317 51.937 1.00 32.98 O ATOM 3526 CB HIS A 769 30.667 37.686 49.838 1.00 32.74 C ATOM 3527 CG HIS A 769 31.554 37.856 48.642 1.00 33.80 C ATOM 3528 ND1 HIS A 769 31.979 36.795 47.869 1.00 34.57 N ATOM 3529 CD2 HIS A 769 32.073 38.968 48.069 1.00 34.03 C ATOM 3530 CE1 HIS A 769 32.729 37.246 46.879 1.00 34.57 C ATOM 3531 NE2 HIS A 769 32.801 38.561 46.978 1.00 34.49 N ATOM 3532 N THR A 770 33.767 37.798 50.772 1.00 33.21 N ATOM 3533 CA THR A 770 34.997 38.591 50.726 1.00 33.58 C ATOM 3534 C THR A 770 35.560 38.679 49.308 1.00 33.87 C ATOM 3535 O THR A 770 35.279 37.841 48.447 1.00 33.69 O ATOM 3536 CB THR A 770 36.110 38.032 51.653 1.00 33.45 C ATOM 3537 OG1 THR A 770 36.483 36.721 51.220 1.00 33.58 O ATOM 3538 CG2 THR A 770 35.650 37.981 53.096 1.00 33.54 C ATOM 3539 N GLU A 771 36.370 39.707 49.098 1.00 34.35 N ATOM 3540 CA GLU A 771 37.035 39.968 47.836 1.00 35.04 C ATOM 3541 C GLU A 771 38.316 40.703 48.136 1.00 34.92 C ATOM 3542 O GLU A 771 38.440 41.336 49.183 1.00 35.22 O ATOM 3543 CB GLU A 771 36.176 40.885 46.971 1.00 35.00 C ATOM 3544 CG GLU A 771 35.432 40.192 45.847 1.00 36.22 C ATOM 3545 CD GLU A 771 34.497 41.133 45.114 1.00 35.95 C ATOM 3546 OE1 GLU A 771 34.646 42.365 45.264 1.00 37.47 O ATOM 3547 OE2 GLU A 771 33.612 40.640 44.387 1.00 37.56 O ATOM 3548 N LYS A 772 39.273 40.614 47.220 1.00 34.91 N ATOM 3549 CA LYS A 772 40.395 41.549 47.190 1.00 34.87 C ATOM 3550 C LYS A 772 41.043 41.771 48.571 1.00 34.34 C ATOM 3551 O LYS A 772 41.366 42.901 48.947 1.00 34.65 O ATOM 3552 CB LYS A 772 39.919 42.873 46.574 1.00 34.83 C ATOM 3553 CG LYS A 772 39.081 42.678 45.303 1.00 35.36 C ATOM 3554 CD LYS A 772 38.708 43.990 44.634 1.00 35.58 C ATOM 3555 CE LYS A 772 37.933 43.744 43.337 1.00 36.38 C ATOM 3556 NZ LYS A 772 37.662 45.024 42.612 1.00 36.45 N ATOM 3557 N GLY A 773 41.210 40.684 49.321 1.00 33.71 N ATOM 3558 CA GLY A 773 41.888 40.715 50.616 1.00 33.19 C ATOM 3559 C GLY A 773 41.059 41.200 51.792 1.00 33.01 C ATOM 3560 O GLY A 773 41.613 41.633 52.804 1.00 33.00 O ATOM 3561 N GLN A 774 39.734 41.126 51.673 1.00 32.68 N ATOM 3562 CA GLN A 774 38.853 41.502 52.779 1.00 32.45 C ATOM 3563 C GLN A 774 38.888 40.476 53.915 1.00 32.12 C ATOM 3564 O GLN A 774 38.921 39.267 53.674 1.00 32.15 O ATOM 3565 CB GLN A 774 37.431 41.741 52.286 1.00 32.72 C ATOM 3566 CG GLN A 774 37.219 43.124 51.669 1.00 32.85 C ATOM 3567 CD GLN A 774 35.982 43.194 50.789 1.00 33.27 C ATOM 3568 OE1 GLN A 774 35.259 42.211 50.628 1.00 33.49 O ATOM 3569 NE2 GLN A 774 35.740 44.359 50.208 1.00 33.85 N ATOM 3570 N ASN A 775 38.872 40.978 55.146 1.00 31.63 N ATOM 3571 CA ASN A 775 39.194 40.189 56.346 1.00 31.33 C ATOM 3572 C ASN A 775 38.369 38.927 56.657 1.00 31.19 C ATOM 3573 O ASN A 775 38.946 37.908 57.085 1.00 31.75 O ATOM 3574 CB ASN A 775 39.231 41.101 57.573 1.00 31.20 C ATOM 3575 CG ASN A 775 40.473 41.976 57.615 1.00 31.07 C ATOM 3576 OD1 ASN A 775 41.354 41.863 56.772 1.00 31.09 O ATOM 3577 ND2 ASN A 775 40.547 42.849 58.608 1.00 31.36 N ATOM 3578 N ALA A 776 37.050 39.000 56.443 1.00 30.02 N ATOM 3579 CA ALA A 776 36.064 37.950 56.809 1.00 29.30 C ATOM 3580 C ALA A 776 35.114 38.395 57.935 1.00 28.63 C ATOM 3581 O ALA A 776 35.508 38.467 59.095 1.00 28.65 O ATOM 3582 CB ALA A 776 36.732 36.618 57.163 1.00 29.10 C ATOM 3583 N TYR A 777 33.880 38.748 57.597 1.00 27.88 N ATOM 3584 CA TYR A 777 33.427 38.909 56.229 1.00 27.28 C ATOM 3585 C TYR A 777 33.036 40.366 55.995 1.00 27.36 C ATOM 3586 O TYR A 777 32.959 41.162 56.936 1.00 27.40 O ATOM 3587 CB TYR A 777 32.211 38.020 55.981 1.00 26.89 C ATOM 3588 CG TYR A 777 32.542 36.563 55.786 1.00 26.62 C ATOM 3589 CD1 TYR A 777 32.873 36.073 54.523 1.00 26.45 C ATOM 3590 CD2 TYR A 777 32.524 35.670 56.857 1.00 26.05 C ATOM 3591 CE1 TYR A 777 33.181 34.736 54.329 1.00 25.38 C ATOM 3592 CE2 TYR A 777 32.834 34.327 56.672 1.00 25.74 C ATOM 3593 CZ TYR A 777 33.158 33.870 55.401 1.00 25.73 C ATOM 3594 OH TYR A 777 33.464 32.547 55.193 1.00 26.01 O ATOM 3595 N THR A 778 32.800 40.713 54.736 1.00 27.29 N ATOM 3596 CA THR A 778 32.065 41.924 54.407 1.00 27.31 C ATOM 3597 C THR A 778 30.631 41.479 54.121 1.00 27.40 C ATOM 3598 O THR A 778 30.412 40.528 53.375 1.00 27.44 O ATOM 3599 CB THR A 778 32.685 42.659 53.189 1.00 27.36 C ATOM 3600 OG1 THR A 778 33.956 43.208 53.563 1.00 27.09 O ATOM 3601 CG2 THR A 778 31.774 43.786 52.686 1.00 26.50 C ATOM 3602 N LEU A 779 29.667 42.156 54.733 1.00 27.55 N ATOM 3603 CA LEU A 779 28.253 41.823 54.558 1.00 27.65 C ATOM 3604 C LEU A 779 27.594 42.705 53.502 1.00 27.69 C ATOM 3605 O LEU A 779 27.549 43.932 53.640 1.00 27.70 O ATOM 3606 CB LEU A 779 27.510 41.924 55.892 1.00 27.50 C ATOM 3607 CG LEU A 779 27.514 40.707 56.829 1.00 27.97 C ATOM 3608 CD1 LEU A 779 28.915 40.214 57.185 1.00 28.23 C ATOM 3609 CD2 LEU A 779 26.733 41.024 58.097 1.00 27.73 C ATOM 3610 N SER A 780 27.071 42.069 52.457 1.00 27.76 N ATOM 3611 CA SER A 780 26.578 42.792 51.291 1.00 27.98 C ATOM 3612 C SER A 780 25.134 42.475 50.909 1.00 28.05 C ATOM 3613 O SER A 780 24.641 41.375 51.141 1.00 27.72 O ATOM 3614 CB SER A 780 27.497 42.547 50.099 1.00 28.02 C ATOM 3615 OG SER A 780 28.835 42.862 50.436 1.00 28.14 O ATOM 3616 N PHE A 781 24.484 43.459 50.295 1.00 28.29 N ATOM 3617 CA PHE A 781 23.080 43.374 49.929 1.00 28.59 C ATOM 3618 C PHE A 781 22.885 43.289 48.415 1.00 28.89 C ATOM 3619 O PHE A 781 23.643 43.885 47.650 1.00 29.11 O ATOM 3620 CB PHE A 781 22.345 44.593 50.493 1.00 28.40 C ATOM 3621 CG PHE A 781 20.908 44.689 50.086 1.00 28.19 C ATOM 3622 CD1 PHE A 781 19.946 43.867 50.672 1.00 28.15 C ATOM 3623 CD2 PHE A 781 20.511 45.612 49.119 1.00 27.88 C ATOM 3624 CE1 PHE A 781 18.602 43.955 50.297 1.00 27.87 C ATOM 3625 CE2 PHE A 781 19.178 45.712 48.736 1.00 28.61 C ATOM 3626 CZ PHE A 781 18.218 44.878 49.327 1.00 28.60 C ATOM 3627 N ARG A 782 21.867 42.540 48.002 1.00 29.36 N ATOM 3628 CA ARG A 782 21.430 42.476 46.605 1.00 29.81 C ATOM 3629 C ARG A 782 19.920 42.280 46.526 1.00 30.17 C ATOM 3630 O ARG A 782 19.341 41.551 47.334 1.00 30.01 O ATOM 3631 CB ARG A 782 22.095 41.311 45.875 1.00 29.58 C ATOM 3632 CG ARG A 782 23.501 41.557 45.386 1.00 29.78 C ATOM 3633 CD ARG A 782 23.935 40.365 44.565 1.00 30.21 C ATOM 3634 NE ARG A 782 25.372 40.294 44.345 1.00 30.12 N ATOM 3635 CZ ARG A 782 25.973 40.581 43.195 1.00 31.28 C ATOM 3636 NH1 ARG A 782 25.264 40.989 42.148 1.00 31.63 N ATOM 3637 NH2 ARG A 782 27.292 40.466 43.095 1.00 31.52 N ATOM 3638 N LYS A 783 19.299 42.942 45.550 1.00 30.71 N ATOM 3639 CA LYS A 783 17.909 42.699 45.181 1.00 31.48 C ATOM 3640 C LYS A 783 17.902 41.783 43.975 1.00 31.67 C ATOM 3641 O LYS A 783 18.860 41.772 43.196 1.00 31.82 O ATOM 3642 CB LYS A 783 17.203 43.996 44.767 1.00 31.69 C ATOM 3643 CG LYS A 783 16.767 44.921 45.881 1.00 32.91 C ATOM 3644 CD LYS A 783 16.670 46.357 45.350 1.00 35.08 C ATOM 3645 CE LYS A 783 15.713 47.208 46.176 1.00 35.63 C ATOM 3646 NZ LYS A 783 15.889 48.671 45.926 1.00 35.71 N ATOM 3647 N PHE A 784 16.814 41.035 43.813 1.00 31.77 N ATOM 3648 CA PHE A 784 16.551 40.305 42.574 1.00 31.93 C ATOM 3649 C PHE A 784 15.052 40.128 42.354 1.00 32.26 C ATOM 3650 O PHE A 784 14.257 40.329 43.278 1.00 32.23 O ATOM 3651 CB PHE A 784 17.286 38.956 42.535 1.00 31.64 C ATOM 3652 CG PHE A 784 17.066 38.096 43.746 1.00 31.27 C ATOM 3653 CD1 PHE A 784 16.009 37.187 43.790 1.00 30.95 C ATOM 3654 CD2 PHE A 784 17.927 38.178 44.837 1.00 30.62 C ATOM 3655 CE1 PHE A 784 15.808 36.380 44.905 1.00 30.82 C ATOM 3656 CE2 PHE A 784 17.737 37.374 45.958 1.00 30.61 C ATOM 3657 CZ PHE A 784 16.676 36.474 45.995 1.00 30.77 C ATOM 3658 N ASN A 785 14.679 39.764 41.128 1.00 32.73 N ATOM 3659 CA ASN A 785 13.281 39.519 40.769 1.00 33.29 C ATOM 3660 C ASN A 785 12.985 38.038 40.508 1.00 33.79 C ATOM 3661 O ASN A 785 13.860 37.184 40.674 1.00 33.86 O ATOM 3662 CB ASN A 785 12.870 40.378 39.567 1.00 33.13 C ATOM 3663 CG ASN A 785 13.790 40.196 38.366 1.00 32.99 C ATOM 3664 OD1 ASN A 785 14.340 39.114 38.132 1.00 32.29 O ATOM 3665 ND2 ASN A 785 13.960 41.266 37.597 1.00 32.58 N ATOM 3666 N TRP A 786 11.754 37.749 40.091 1.00 34.51 N ATOM 3667 CA TRP A 786 11.307 36.380 39.863 1.00 35.28 C ATOM 3668 C TRP A 786 11.993 35.725 38.663 1.00 35.83 C ATOM 3669 O TRP A 786 12.202 34.509 38.662 1.00 36.17 O ATOM 3670 CB TRP A 786 9.785 36.326 39.703 1.00 35.53 C ATOM 3671 CG TRP A 786 9.267 34.923 39.617 1.00 35.98 C ATOM 3672 CD1 TRP A 786 8.942 34.236 38.480 1.00 36.17 C ATOM 3673 CD2 TRP A 786 9.054 34.020 40.707 1.00 35.84 C ATOM 3674 NE1 TRP A 786 8.524 32.967 38.797 1.00 36.52 N ATOM 3675 CE2 TRP A 786 8.585 32.805 40.157 1.00 36.11 C ATOM 3676 CE3 TRP A 786 9.207 34.121 42.096 1.00 35.63 C ATOM 3677 CZ2 TRP A 786 8.265 31.697 40.948 1.00 35.77 C ATOM 3678 CZ3 TRP A 786 8.885 33.019 42.884 1.00 35.89 C ATOM 3679 CH2 TRP A 786 8.423 31.823 42.305 1.00 35.85 C ATOM 3680 N ASP A 787 12.329 36.529 37.652 1.00 36.19 N ATOM 3681 CA ASP A 787 13.050 36.055 36.463 1.00 36.61 C ATOM 3682 C ASP A 787 14.412 35.480 36.829 1.00 36.96 C ATOM 3683 O ASP A 787 14.829 34.459 36.273 1.00 37.08 O ATOM 3684 CB ASP A 787 13.233 37.183 35.434 1.00 36.51 C ATOM 3685 CG ASP A 787 11.992 37.417 34.576 1.00 36.46 C ATOM 3686 OD1 ASP A 787 11.039 36.603 34.640 1.00 36.27 O ATOM 3687 OD2 ASP A 787 11.977 38.421 33.830 1.00 35.51 O ATOM 3688 N PHE A 788 15.097 36.140 37.763 1.00 37.24 N ATOM 3689 CA PHE A 788 16.381 35.660 38.257 1.00 37.61 C ATOM 3690 C PHE A 788 16.238 34.291 38.914 1.00 37.92 C ATOM 3691 O PHE A 788 17.173 33.490 38.912 1.00 37.81 O ATOM 3692 CB PHE A 788 16.998 36.652 39.246 1.00 37.56 C ATOM 3693 CG PHE A 788 18.275 36.156 39.873 1.00 37.90 C ATOM 3694 CD1 PHE A 788 19.475 36.193 39.164 1.00 37.33 C ATOM 3695 CD2 PHE A 788 18.275 35.632 41.164 1.00 38.18 C ATOM 3696 CE1 PHE A 788 20.652 35.723 39.729 1.00 37.41 C ATOM 3697 CE2 PHE A 788 19.453 35.159 41.740 1.00 38.38 C ATOM 3698 CZ PHE A 788 20.645 35.208 41.019 1.00 37.63 C ATOM 3699 N LEU A 789 15.057 34.033 39.468 1.00 38.47 N ATOM 3700 CA LEU A 789 14.788 32.797 40.191 1.00 38.74 C ATOM 3701 C LEU A 789 14.315 31.661 39.301 1.00 39.06 C ATOM 3702 O LEU A 789 14.682 30.507 39.523 1.00 38.92 O ATOM 3703 CB LEU A 789 13.744 33.051 41.272 1.00 38.77 C ATOM 3704 CG LEU A 789 14.252 33.631 42.587 1.00 38.85 C ATOM 3705 CD1 LEU A 789 13.138 34.385 43.290 1.00 38.34 C ATOM 3706 CD2 LEU A 789 14.804 32.512 43.459 1.00 38.53 C ATOM 3707 N SER A 790 13.504 31.992 38.298 1.00 39.53 N ATOM 3708 CA SER A 790 12.776 30.983 37.528 1.00 40.12 C ATOM 3709 C SER A 790 13.377 30.638 36.156 1.00 40.38 C ATOM 3710 O SER A 790 13.124 29.555 35.621 1.00 40.61 O ATOM 3711 CB SER A 790 11.309 31.393 37.379 1.00 40.10 C ATOM 3712 OG SER A 790 11.188 32.567 36.596 1.00 40.62 O ATOM 3713 N LYS A 791 14.161 31.555 35.593 1.00 40.67 N ATOM 3714 CA LYS A 791 14.769 31.350 34.276 1.00 40.92 C ATOM 3715 C LYS A 791 16.163 31.963 34.171 1.00 40.88 C ATOM 3716 O LYS A 791 17.053 31.386 33.546 1.00 40.94 O ATOM 3717 CB LYS A 791 13.861 31.897 33.166 1.00 41.08 C ATOM 3718 CG LYS A 791 13.522 33.386 33.293 1.00 41.13 C ATOM 3719 CD LYS A 791 12.691 33.883 32.121 1.00 41.00 C ATOM 3720 CE LYS A 791 11.264 33.354 32.177 1.00 41.36 C ATOM 3721 NZ LYS A 791 10.317 34.245 31.442 1.00 41.47 N TER 3722 LYS A 791 ATOM 3723 N ALA B 322 26.470 −5.993 127.959 1.00 69.14 N ATOM 3724 CA ALA B 322 25.819 −7.228 127.433 1.00 69.17 C ATOM 3725 C ALA B 322 25.536 −7.095 125.941 1.00 69.25 C ATOM 3726 O ALA B 322 25.639 −6.002 125.378 1.00 69.21 O ATOM 3727 CB ALA B 322 24.530 −7.523 128.201 1.00 69.07 C ATOM 3728 N LEU B 323 25.197 −8.220 125.311 1.00 69.27 N ATOM 3729 CA LEU B 323 24.792 −8.265 123.907 1.00 69.18 C ATOM 3730 C LEU B 323 23.977 −9.529 123.652 1.00 69.12 C ATOM 3731 O LEU B 323 24.427 −10.638 123.960 1.00 69.24 O ATOM 3732 CB LEU B 323 26.016 −8.213 122.980 1.00 69.26 C ATOM 3733 CG LEU B 323 25.855 −8.541 121.484 1.00 69.38 C ATOM 3734 CD1 LEU B 323 24.853 −7.622 120.792 1.00 69.30 C ATOM 3735 CD2 LEU B 323 27.202 −8.491 120.773 1.00 69.28 C ATOM 3736 N THR B 324 22.783 −9.355 123.091 1.00 68.91 N ATOM 3737 CA THR B 324 21.884 −10.479 122.819 1.00 68.76 C ATOM 3738 C THR B 324 22.362 −11.300 121.621 1.00 68.62 C ATOM 3739 O THR B 324 23.011 −10.772 120.716 1.00 68.63 O ATOM 3740 CB THR B 324 20.429 −10.013 122.577 1.00 68.73 C ATOM 3741 OG1 THR B 324 20.400 −9.064 121.505 1.00 68.97 O ATOM 3742 CG2 THR B 324 19.848 −9.374 123.832 1.00 68.60 C ATOM 3743 N GLU B 325 22.038 −12.592 121.631 1.00 68.42 N ATOM 3744 CA GLU B 325 22.423 −13.503 120.554 1.00 68.30 C ATOM 3745 C GLU B 325 21.633 −13.257 119.267 1.00 67.98 C ATOM 3746 O GLU B 325 20.596 −12.587 119.275 1.00 67.93 O ATOM 3747 CB GLU B 325 22.297 −14.966 121.001 1.00 68.28 C ATOM 3748 CG GLU B 325 23.494 −15.471 121.813 1.00 68.73 C ATOM 3749 CD GLU B 325 23.454 −16.974 122.089 1.00 68.74 C ATOM 3750 OE1 GLU B 325 22.463 −17.459 122.682 1.00 69.26 O ATOM 3751 OE2 GLU B 325 24.428 −17.669 121.726 1.00 69.19 O ATOM 3752 N LYS B 326 22.148 −13.809 118.170 1.00 67.58 N ATOM 3753 CA LYS B 326 21.582 −13.659 116.830 1.00 67.11 C ATOM 3754 C LYS B 326 20.105 −14.065 116.766 1.00 66.67 C ATOM 3755 O LYS B 326 19.738 −15.181 117.139 1.00 66.63 O ATOM 3756 CB LYS B 326 22.402 −14.500 115.845 1.00 67.22 C ATOM 3757 CG LYS B 326 22.231 −14.144 114.382 1.00 67.41 C ATOM 3758 CD LYS B 326 22.678 −15.300 113.498 1.00 67.80 C ATOM 3759 CE LYS B 326 22.830 −14.869 112.046 1.00 68.19 C ATOM 3760 NZ LYS B 326 22.902 −16.032 111.113 1.00 68.21 N ATOM 3761 N THR B 327 19.270 −13.143 116.294 1.00 66.14 N ATOM 3762 CA THR B 327 17.838 −13.389 116.125 1.00 65.57 C ATOM 3763 C THR B 327 17.415 −13.021 114.703 1.00 65.20 C ATOM 3764 O THR B 327 17.288 −11.841 114.367 1.00 65.17 O ATOM 3765 CB THR B 327 16.997 −12.590 117.150 1.00 65.60 C ATOM 3766 OG1 THR B 327 17.517 −12.802 118.466 1.00 65.49 O ATOM 3767 CG2 THR B 327 15.532 −13.019 117.110 1.00 65.49 C ATOM 3768 N ASP B 328 17.200 −14.043 113.878 1.00 64.62 N ATOM 3769 CA ASP B 328 16.871 −13.860 112.466 1.00 64.01 C ATOM 3770 C ASP B 328 15.414 −13.443 112.265 1.00 63.82 C ATOM 3771 O ASP B 328 14.504 −14.048 112.838 1.00 63.73 O ATOM 3772 CB ASP B 328 17.165 −15.145 111.681 1.00 63.92 C ATOM 3773 CG ASP B 328 18.545 −15.727 111.985 1.00 63.38 C ATOM 3774 OD1 ASP B 328 19.417 −15.003 112.514 1.00 62.54 O ATOM 3775 OD2 ASP B 328 18.753 −16.922 111.689 1.00 62.45 O ATOM 3776 N ILE B 329 15.204 −12.404 111.455 1.00 63.51 N ATOM 3777 CA ILE B 329 13.856 −11.933 111.112 1.00 63.20 C ATOM 3778 C ILE B 329 13.478 −12.323 109.678 1.00 62.98 C ATOM 3779 O ILE B 329 12.386 −12.845 109.437 1.00 62.95 O ATOM 3780 CB ILE B 329 13.683 −10.393 111.322 1.00 63.19 C ATOM 3781 CG1 ILE B 329 13.882 −10.005 112.789 1.00 63.18 C ATOM 3782 CG2 ILE B 329 12.300 −9.924 110.878 1.00 63.09 C ATOM 3783 CD1 ILE B 329 15.287 −9.605 113.132 1.00 62.92 C ATOM 3784 N PHE B 330 14.384 −12.069 108.737 1.00 62.72 N ATOM 3785 CA PHE B 330 14.147 −12.381 107.329 1.00 62.53 C ATOM 3786 C PHE B 330 15.121 −13.451 106.841 1.00 62.57 C ATOM 3787 O PHE B 330 16.210 −13.141 106.358 1.00 62.52 O ATOM 3788 CB PHE B 330 14.254 −11.119 106.467 1.00 62.36 C ATOM 3789 CG PHE B 330 13.293 −10.027 106.853 1.00 61.98 C ATOM 3790 CD1 PHE B 330 11.946 −10.110 106.514 1.00 61.73 C ATOM 3791 CD2 PHE B 330 13.740 −8.900 107.541 1.00 61.74 C ATOM 3792 CE1 PHE B 330 11.056 −9.092 106.864 1.00 61.58 C ATOM 3793 CE2 PHE B 330 12.859 −7.877 107.892 1.00 61.45 C ATOM 3794 CZ PHE B 330 11.515 −7.975 107.554 1.00 61.49 C ATOM 3795 N GLU B 331 14.707 −14.709 106.965 1.00 62.71 N ATOM 3796 CA GLU B 331 15.574 −15.859 106.707 1.00 62.84 C ATOM 3797 C GLU B 331 15.738 −16.136 105.216 1.00 62.73 C ATOM 3798 O GLU B 331 14.754 −16.335 104.506 1.00 62.72 O ATOM 3799 CB GLU B 331 15.018 −17.106 107.405 1.00 62.98 C ATOM 3800 CG GLU B 331 14.803 −16.954 108.913 1.00 63.55 C ATOM 3801 CD GLU B 331 13.620 −17.765 109.436 1.00 64.17 C ATOM 3802 OE1 GLU B 331 12.761 −18.181 108.624 1.00 64.29 O ATOM 3803 OE2 GLU B 331 13.544 −17.974 110.668 1.00 63.91 O ATOM 3804 N SER B 332 16.986 −16.150 104.752 1.00 62.76 N ATOM 3805 CA SER B 332 17.296 −16.515 103.368 1.00 62.82 C ATOM 3806 C SER B 332 17.361 −18.038 103.197 1.00 62.98 C ATOM 3807 O SER B 332 17.080 −18.787 104.133 1.00 62.96 O ATOM 3808 CB SER B 332 18.597 −15.846 102.898 1.00 62.80 C ATOM 3809 OG SER B 332 19.651 −16.019 103.830 1.00 62.55 O ATOM 3810 N GLY B 333 17.715 −18.487 101.995 1.00 63.14 N ATOM 3811 CA GLY B 333 17.858 −19.915 101.712 1.00 63.27 C ATOM 3812 C GLY B 333 19.275 −20.419 101.920 1.00 63.40 C ATOM 3813 O GLY B 333 20.146 −19.683 102.395 1.00 63.31 O ATOM 3814 N ARG B 334 19.504 −21.678 101.555 1.00 63.54 N ATOM 3815 CA ARG B 334 20.798 −22.324 101.758 1.00 63.80 C ATOM 3816 C ARG B 334 21.320 −22.954 100.470 1.00 63.91 C ATOM 3817 O ARG B 334 20.581 −23.652 99.774 1.00 63.99 O ATOM 3818 CB ARG B 334 20.698 −23.408 102.838 1.00 63.90 C ATOM 3819 CG ARG B 334 20.417 −22.916 104.250 1.00 64.03 C ATOM 3820 CD ARG B 334 20.156 −24.102 105.161 1.00 64.39 C ATOM 3821 NE ARG B 334 19.840 −23.702 106.530 1.00 64.70 N ATOM 3822 CZ ARG B 334 19.429 −24.539 107.479 1.00 64.85 C ATOM 3823 NH1 ARG B 334 19.276 −25.832 107.213 1.00 64.82 N ATOM 3824 NH2 ARG B 334 19.168 −24.083 108.698 1.00 64.73 N ATOM 3825 N ASN B 335 22.593 −22.700 100.166 1.00 64.00 N ATOM 3826 CA ASN B 335 23.313 −23.353 99.059 1.00 64.12 C ATOM 3827 C ASN B 335 22.664 −23.215 97.673 1.00 64.08 C ATOM 3828 O ASN B 335 22.868 −24.061 96.795 1.00 63.98 O ATOM 3829 CB ASN B 335 23.579 −24.832 99.391 1.00 64.22 C ATOM 3830 CG ASN B 335 24.155 −25.025 100.785 1.00 64.56 C ATOM 3831 OD1 ASN B 335 23.458 −25.469 101.699 1.00 64.80 O ATOM 3832 ND2 ASN B 335 25.428 −24.676 100.958 1.00 64.83 N ATOM 3833 N GLY B 336 21.895 −22.144 97.483 1.00 64.09 N ATOM 3834 CA GLY B 336 21.187 −21.905 96.225 1.00 64.03 C ATOM 3835 C GLY B 336 19.765 −22.441 96.228 1.00 64.02 C ATOM 3836 O GLY B 336 19.088 −22.426 95.195 1.00 64.08 O ATOM 3837 N LYS B 337 19.318 −22.923 97.388 1.00 63.84 N ATOM 3838 CA LYS B 337 17.941 −23.383 97.567 1.00 63.62 C ATOM 3839 C LYS B 337 17.048 −22.224 98.003 1.00 63.32 C ATOM 3840 O LYS B 337 17.490 −21.348 98.751 1.00 63.29 O ATOM 3841 CB LYS B 337 17.859 −24.497 98.619 1.00 63.67 C ATOM 3842 CG LYS B 337 18.505 −25.822 98.227 1.00 63.83 C ATOM 3843 CD LYS B 337 18.422 −26.824 99.376 1.00 63.70 C ATOM 3844 CE LYS B 337 19.151 −28.121 99.051 1.00 64.22 C ATOM 3845 NZ LYS B 337 18.449 −28.928 98.013 1.00 64.12 N ATOM 3846 N PRO B 338 15.788 −22.211 97.532 1.00 62.95 N ATOM 3847 CA PRO B 338 14.811 −21.282 98.090 1.00 62.64 C ATOM 3848 C PRO B 338 14.388 −21.756 99.481 1.00 62.30 C ATOM 3849 O PRO B 338 14.331 −22.963 99.723 1.00 62.36 O ATOM 3850 CB PRO B 338 13.629 −21.380 97.115 1.00 62.69 C ATOM 3851 CG PRO B 338 14.117 −22.183 95.946 1.00 62.85 C ATOM 3852 CD PRO B 338 15.207 −23.043 96.465 1.00 62.91 C ATOM 3853 N ASN B 339 14.099 −20.821 100.385 1.00 61.79 N ATOM 3854 CA ASN B 339 13.695 −21.172 101.750 1.00 61.26 C ATOM 3855 C ASN B 339 12.277 −21.760 101.808 1.00 61.01 C ATOM 3856 O ASN B 339 11.712 −22.120 100.770 1.00 61.00 O ATOM 3857 CB ASN B 339 13.857 −19.970 102.696 1.00 61.23 C ATOM 3858 CG ASN B 339 12.827 −18.865 102.451 1.00 61.10 C ATOM 3859 OD1 ASN B 339 12.101 −18.867 101.455 1.00 60.91 O ATOM 3860 ND2 ASN B 339 12.769 −17.910 103.371 1.00 60.82 N ATOM 3861 N LYS B 340 11.713 −21.855 103.015 1.00 60.55 N ATOM 3862 CA LYS B 340 10.356 −22.384 103.225 1.00 60.08 C ATOM 3863 C LYS B 340 9.328 −21.820 102.242 1.00 59.62 C ATOM 3864 O LYS B 340 8.492 −22.556 101.717 1.00 59.58 O ATOM 3865 CB LYS B 340 9.881 −22.112 104.657 1.00 60.17 C ATOM 3866 CG LYS B 340 10.681 −22.808 105.739 1.00 60.43 C ATOM 3867 CD LYS B 340 10.045 −22.605 107.104 1.00 60.72 C ATOM 3868 CE LYS B 340 10.822 −23.351 108.176 1.00 61.28 C ATOM 3869 NZ LYS B 340 10.024 −23.535 109.418 1.00 61.76 N ATOM 3870 N ASP B 341 9.405 −20.513 101.998 1.00 59.05 N ATOM 3871 CA ASP B 341 8.408 −19.806 101.196 1.00 58.44 C ATOM 3872 C ASP B 341 8.886 −19.510 99.772 1.00 57.87 C ATOM 3873 O ASP B 341 8.345 −18.627 99.099 1.00 57.85 O ATOM 3874 CB ASP B 341 7.989 −18.518 101.908 1.00 58.48 C ATOM 3875 CG ASP B 341 7.479 −18.770 103.312 1.00 58.61 C ATOM 3876 OD1 ASP B 341 6.377 −19.340 103.457 1.00 59.00 O ATOM 3877 OD2 ASP B 341 8.180 −18.396 104.274 1.00 58.74 O ATOM 3878 N GLY B 342 9.897 −20.251 99.323 1.00 57.12 N ATOM 3879 CA GLY B 342 10.416 −20.121 97.962 1.00 56.17 C ATOM 3880 C GLY B 342 11.148 −18.818 97.689 1.00 55.49 C ATOM 3881 O GLY B 342 11.327 −18.432 96.531 1.00 55.55 O ATOM 3882 N ILE B 343 11.567 −18.141 98.758 1.00 54.67 N ATOM 3883 CA ILE B 343 12.300 −16.882 98.651 1.00 53.81 C ATOM 3884 C ILE B 343 13.782 −17.135 98.910 1.00 53.22 C ATOM 3885 O ILE B 343 14.188 −17.402 100.043 1.00 53.13 O ATOM 3886 CB ILE B 343 11.741 −15.802 99.620 1.00 53.81 C ATOM 3887 CG1 ILE B 343 10.280 −15.486 99.277 1.00 53.56 C ATOM 3888 CG2 ILE B 343 12.590 −14.527 99.560 1.00 53.74 C ATOM 3889 CD1 ILE B 343 9.454 −14.982 100.438 1.00 53.10 C ATOM 3890 N LYS B 344 14.581 −17.058 97.848 1.00 52.41 N ATOM 3891 CA LYS B 344 16.008 −17.344 97.939 1.00 51.68 C ATOM 3892 C LYS B 344 16.726 −16.341 98.832 1.00 51.21 C ATOM 3893 O LYS B 344 17.524 −16.727 99.685 1.00 51.21 O ATOM 3894 CB LYS B 344 16.671 −17.356 96.554 1.00 51.70 C ATOM 3895 CG LYS B 344 16.393 −18.578 95.688 1.00 51.34 C ATOM 3896 CD LYS B 344 17.526 −18.774 94.677 1.00 51.30 C ATOM 3897 CE LYS B 344 17.070 −19.489 93.404 1.00 50.83 C ATOM 3898 NZ LYS B 344 16.747 −20.928 93.594 1.00 50.19 N ATOM 3899 N SER B 345 16.426 −15.059 98.645 1.00 50.60 N ATOM 3900 CA SER B 345 17.246 −14.003 99.222 1.00 49.95 C ATOM 3901 C SER B 345 16.479 −12.922 99.966 1.00 49.55 C ATOM 3902 O SER B 345 15.364 −12.559 99.592 1.00 49.48 O ATOM 3903 CB SER B 345 18.099 −13.356 98.131 1.00 49.98 C ATOM 3904 OG SER B 345 18.742 −12.191 98.615 1.00 49.84 O ATOM 3905 N TYR B 346 17.106 −12.421 101.026 1.00 49.13 N ATOM 3906 CA TYR B 346 16.664 −11.217 101.720 1.00 48.73 C ATOM 3907 C TYR B 346 17.832 −10.251 101.803 1.00 48.46 C ATOM 3908 O TYR B 346 18.984 −10.668 101.930 1.00 48.46 O ATOM 3909 CB TYR B 346 16.111 −11.534 103.109 1.00 48.65 C ATOM 3910 CG TYR B 346 14.680 −12.013 103.080 1.00 48.56 C ATOM 3911 CD1 TYR B 346 13.627 −11.113 102.897 1.00 48.61 C ATOM 3912 CD2 TYR B 346 14.374 −13.363 103.231 1.00 48.29 C ATOM 3913 CE1 TYR B 346 12.306 −11.550 102.866 1.00 48.79 C ATOM 3914 CE2 TYR B 346 13.057 −13.810 103.203 1.00 48.37 C ATOM 3915 CZ TYR B 346 12.030 −12.900 103.019 1.00 48.59 C ATOM 3916 OH TYR B 346 10.727 −13.336 102.987 1.00 48.67 O ATOM 3917 N ARG B 347 17.529 −8.959 101.727 1.00 48.11 N ATOM 3918 CA ARG B 347 18.555 −7.952 101.510 1.00 47.78 C ATOM 3919 C ARG B 347 18.073 −6.570 101.943 1.00 47.73 C ATOM 3920 O ARG B 347 16.872 −6.312 101.995 1.00 47.77 O ATOM 3921 CB ARG B 347 18.924 −7.948 100.024 1.00 47.68 C ATOM 3922 CG ARG B 347 20.225 −7.270 99.668 1.00 47.49 C ATOM 3923 CD ARG B 347 21.421 −8.196 99.701 1.00 46.20 C ATOM 3924 NE ARG B 347 22.444 −7.733 98.768 1.00 45.04 N ATOM 3925 CZ ARG B 347 23.225 −6.675 98.960 1.00 44.53 C ATOM 3926 NH1 ARG B 347 23.119 −5.947 100.064 1.00 44.12 N ATOM 3927 NH2 ARG B 347 24.118 −6.342 98.037 1.00 44.53 N ATOM 3928 N ILE B 348 19.023 −5.694 102.264 1.00 47.75 N ATOM 3929 CA ILE B 348 18.760 −4.270 102.553 1.00 47.82 C ATOM 3930 C ILE B 348 17.856 −4.050 103.785 1.00 47.86 C ATOM 3931 O ILE B 348 16.642 −3.868 103.644 1.00 48.00 O ATOM 3932 CB ILE B 348 18.204 −3.488 101.302 1.00 47.74 C ATOM 3933 CG1 ILE B 348 18.846 −3.965 99.984 1.00 47.75 C ATOM 3934 CG2 ILE B 348 18.355 −1.985 101.488 1.00 47.77 C ATOM 3935 CD1 ILE B 348 20.356 −3.746 99.858 1.00 47.38 C ATOM 3936 N PRO B 349 18.452 −4.070 104.993 1.00 47.78 N ATOM 3937 CA PRO B 349 17.737 −3.858 106.248 1.00 47.73 C ATOM 3938 C PRO B 349 17.346 −2.403 106.493 1.00 47.80 C ATOM 3939 O PRO B 349 18.099 −1.486 106.158 1.00 47.90 O ATOM 3940 CB PRO B 349 18.761 −4.284 107.302 1.00 47.74 C ATOM 3941 CG PRO B 349 20.067 −4.040 106.680 1.00 47.83 C ATOM 3942 CD PRO B 349 19.886 −4.325 105.222 1.00 47.76 C ATOM 3943 N ALA B 350 16.173 −2.205 107.083 1.00 47.79 N ATOM 3944 CA ALA B 350 15.756 −0.893 107.565 1.00 47.91 C ATOM 3945 C ALA B 350 15.011 −1.073 108.882 1.00 48.03 C ATOM 3946 O ALA B 350 14.053 −1.846 108.957 1.00 48.06 O ATOM 3947 CB ALA B 350 14.883 −0.190 106.535 1.00 47.78 C ATOM 3948 N LEU B 351 15.462 −0.367 109.917 1.00 48.17 N ATOM 3949 CA LEU B 351 14.898 −0.516 111.257 1.00 48.33 C ATOM 3950 C LEU B 351 14.356 0.795 111.816 1.00 48.64 C ATOM 3951 O LEU B 351 15.074 1.795 111.877 1.00 48.55 O ATOM 3952 CB LEU B 351 15.941 −1.104 112.216 1.00 48.26 C ATOM 3953 CG LEU B 351 15.473 −1.448 113.634 1.00 47.83 C ATOM 3954 CD1 LEU B 351 14.732 −2.776 113.654 1.00 47.56 C ATOM 3955 CD2 LEU B 351 16.653 −1.476 114.592 1.00 47.33 C ATOM 3956 N LEU B 352 13.091 0.776 112.233 1.00 49.13 N ATOM 3957 CA LEU B 352 12.450 1.946 112.837 1.00 49.45 C ATOM 3958 C LEU B 352 11.702 1.614 114.130 1.00 49.82 C ATOM 3959 O LEU B 352 10.928 0.658 114.178 1.00 49.94 O ATOM 3960 CB LEU B 352 11.497 2.609 111.836 1.00 49.38 C ATOM 3961 CG LEU B 352 10.715 3.858 112.268 1.00 49.32 C ATOM 3962 CD1 LEU B 352 11.633 5.033 112.599 1.00 48.78 C ATOM 3963 CD2 LEU B 352 9.713 4.247 111.192 1.00 49.34 C ATOM 3964 N LYS B 353 11.949 2.407 115.172 1.00 50.18 N ATOM 3965 CA LYS B 353 11.132 2.385 116.379 1.00 50.39 C ATOM 3966 C LYS B 353 10.185 3.583 116.339 1.00 50.51 C ATOM 3967 O LYS B 353 10.613 4.710 116.071 1.00 50.41 O ATOM 3968 CB LYS B 353 12.001 2.406 117.641 1.00 50.56 C ATOM 3969 CG LYS B 353 11.236 2.113 118.934 1.00 50.89 C ATOM 3970 CD LYS B 353 12.098 1.369 119.957 1.00 51.58 C ATOM 3971 CE LYS B 353 11.347 1.160 121.278 1.00 51.78 C ATOM 3972 NZ LYS B 353 11.834 −0.017 122.058 1.00 51.32 N ATOM 3973 N THR B 354 8.904 3.328 116.604 1.00 50.68 N ATOM 3974 CA THR B 354 7.846 4.329 116.426 1.00 50.85 C ATOM 3975 C THR B 354 7.460 5.055 117.724 1.00 51.03 C ATOM 3976 O THR B 354 8.191 4.999 118.714 1.00 51.04 O ATOM 3977 CB THR B 354 6.593 3.713 115.757 1.00 50.88 C ATOM 3978 OG1 THR B 354 5.856 2.941 116.712 1.00 50.76 O ATOM 3979 CG2 THR B 354 6.993 2.828 114.585 1.00 50.77 C ATOM 3980 N ASP B 355 6.318 5.745 117.703 1.00 51.24 N ATOM 3981 CA ASP B 355 5.854 6.521 118.855 1.00 51.56 C ATOM 3982 C ASP B 355 5.273 5.630 119.947 1.00 51.73 C ATOM 3983 O ASP B 355 5.427 5.915 121.134 1.00 51.90 O ATOM 3984 CB ASP B 355 4.834 7.589 118.431 1.00 51.47 C ATOM 3985 CG ASP B 355 3.563 6.993 117.843 1.00 51.63 C ATOM 3986 OD1 ASP B 355 3.662 6.076 117.000 1.00 51.93 O ATOM 3987 OD2 ASP B 355 2.462 7.450 118.221 1.00 51.46 O ATOM 3988 N LYS B 356 4.615 4.549 119.532 1.00 51.87 N ATOM 3989 CA LYS B 356 4.010 3.592 120.454 1.00 51.97 C ATOM 3990 C LYS B 356 5.036 2.600 121.012 1.00 51.87 C ATOM 3991 O LYS B 356 4.697 1.744 121.839 1.00 51.95 O ATOM 3992 CB LYS B 356 2.865 2.844 119.761 1.00 52.13 C ATOM 3993 CG LYS B 356 1.680 3.724 119.394 1.00 52.79 C ATOM 3994 CD LYS B 356 0.646 2.960 118.585 1.00 53.70 C ATOM 3995 CE LYS B 356 −0.595 3.808 118.347 1.00 53.91 C ATOM 3996 NZ LYS B 356 −1.516 3.160 117.370 1.00 54.11 N ATOM 3997 N GLY B 357 6.283 2.721 120.557 1.00 51.67 N ATOM 3998 CA GLY B 357 7.374 1.846 121.000 1.00 51.30 C ATOM 3999 C GLY B 357 7.657 0.691 120.053 1.00 51.04 C ATOM 4000 O GLY B 357 8.680 0.013 120.181 1.00 51.03 O ATOM 4001 N THR B 358 6.747 0.477 119.104 1.00 50.66 N ATOM 4002 CA THR B 358 6.838 −0.600 118.115 1.00 50.36 C ATOM 4003 C THR B 358 8.142 −0.573 117.311 1.00 50.21 C ATOM 4004 O THR B 358 8.666 0.496 116.996 1.00 50.14 O ATOM 4005 CB THR B 358 5.661 −0.524 117.117 1.00 50.36 C ATOM 4006 OG1 THR B 358 4.453 −0.185 117.812 1.00 50.23 O ATOM 4007 CG2 THR B 358 5.475 −1.845 116.380 1.00 50.43 C ATOM 4008 N LEU B 359 8.658 −1.757 116.989 1.00 50.00 N ATOM 4009 CA LEU B 359 9.769 −1.881 116.048 1.00 49.71 C ATOM 4010 C LEU B 359 9.287 −2.383 114.685 1.00 49.41 C ATOM 4011 O LEU B 359 8.510 −3.337 114.596 1.00 49.38 O ATOM 4012 CB LEU B 359 10.876 −2.788 116.598 1.00 49.68 C ATOM 4013 CG LEU B 359 11.779 −2.226 117.704 1.00 49.93 C ATOM 4014 CD1 LEU B 359 12.587 −3.342 118.350 1.00 49.79 C ATOM 4015 CD2 LEU B 359 12.705 −1.136 117.180 1.00 49.93 C ATOM 4016 N ILE B 360 9.744 −1.709 113.633 1.00 49.00 N ATOM 4017 CA ILE B 360 9.483 −2.116 112.259 1.00 48.46 C ATOM 4018 C ILE B 360 10.804 −2.504 111.613 1.00 48.12 C ATOM 4019 O ILE B 360 11.776 −1.751 111.670 1.00 47.96 O ATOM 4020 CB ILE B 360 8.825 −0.981 111.437 1.00 48.47 C ATOM 4021 CG1 ILE B 360 7.496 −0.560 112.070 1.00 48.47 C ATOM 4022 CG2 ILE B 360 8.616 −1.414 109.987 1.00 48.29 C ATOM 4023 CD1 ILE B 360 6.952 0.755 111.556 1.00 48.37 C ATOM 4024 N ALA B 361 10.835 −3.694 111.022 1.00 47.76 N ATOM 4025 CA ALA B 361 11.976 −4.133 110.232 1.00 47.42 C ATOM 4026 C ALA B 361 11.540 −4.331 108.782 1.00 47.15 C ATOM 4027 O ALA B 361 10.560 −5.027 108.512 1.00 47.05 O ATOM 4028 CB ALA B 361 12.569 −5.411 110.806 1.00 47.35 C ATOM 4029 N GLY B 362 12.265 −3.699 107.861 1.00 46.87 N ATOM 4030 CA GLY B 362 11.951 −3.760 106.432 1.00 46.49 C ATOM 4031 C GLY B 362 13.077 −4.347 105.604 1.00 46.16 C ATOM 4032 O GLY B 362 14.254 −4.185 105.937 1.00 46.11 O ATOM 4033 N ALA B 363 12.714 −5.022 104.516 1.00 45.89 N ATOM 4034 CA ALA B 363 13.688 −5.739 103.697 1.00 45.72 C ATOM 4035 C ALA B 363 13.297 −5.836 102.229 1.00 45.65 C ATOM 4036 O ALA B 363 12.127 −5.672 101.871 1.00 45.58 O ATOM 4037 CB ALA B 363 13.909 −7.136 104.262 1.00 45.59 C ATOM 4038 N ASP B 364 14.298 −6.099 101.391 1.00 45.71 N ATOM 4039 CA ASP B 364 14.088 −6.549 100.018 1.00 45.79 C ATOM 4040 C ASP B 364 13.752 −8.041 100.047 1.00 45.76 C ATOM 4041 O ASP B 364 14.560 −8.859 100.491 1.00 45.77 O ATOM 4042 CB ASP B 364 15.350 −6.334 99.167 1.00 45.73 C ATOM 4043 CG ASP B 364 15.442 −4.935 98.567 1.00 46.25 C ATOM 4044 OD1 ASP B 364 15.251 −3.933 99.295 1.00 46.69 O ATOM 4045 OD2 ASP B 364 15.736 −4.841 97.355 1.00 46.25 O ATOM 4046 N GLU B 365 12.554 −8.388 99.590 1.00 45.69 N ATOM 4047 CA GLU B 365 12.169 −9.784 99.426 1.00 45.56 C ATOM 4048 C GLU B 365 12.576 −10.256 98.032 1.00 45.46 C ATOM 4049 O GLU B 365 11.749 −10.322 97.116 1.00 45.56 O ATOM 4050 CB GLU B 365 10.667 −9.942 99.642 1.00 45.66 C ATOM 4051 CG GLU B 365 10.188 −11.372 99.806 1.00 45.78 C ATOM 4052 CD GLU B 365 8.854 −11.437 100.520 1.00 45.95 C ATOM 4053 OE1 GLU B 365 8.848 −11.433 101.772 1.00 45.59 O ATOM 4054 OE2 GLU B 365 7.815 −11.487 99.829 1.00 45.80 O ATOM 4055 N ARG B 366 13.861 −10.574 97.885 1.00 45.24 N ATOM 4056 CA ARG B 366 14.435 −10.965 96.597 1.00 44.93 C ATOM 4057 C ARG B 366 14.233 −12.455 96.330 1.00 45.00 C ATOM 4058 O ARG B 366 15.082 −13.282 96.661 1.00 45.01 O ATOM 4059 CB ARG B 366 15.919 −10.582 96.532 1.00 44.82 C ATOM 4060 CG ARG B 366 16.170 −9.092 96.693 1.00 43.87 C ATOM 4061 CD ARG B 366 17.638 −8.746 96.586 1.00 42.36 C ATOM 4062 NE ARG B 366 17.862 −7.315 96.781 1.00 40.97 N ATOM 4063 CZ ARG B 366 19.019 −6.694 96.571 1.00 40.40 C ATOM 4064 NH1 ARG B 366 20.085 −7.370 96.162 1.00 40.04 N ATOM 4065 NH2 ARG B 366 19.113 −5.389 96.779 1.00 40.30 N ATOM 4066 N ARG B 367 13.101 −12.772 95.706 1.00 45.12 N ATOM 4067 CA ARG B 367 12.622 −14.147 95.558 1.00 45.09 C ATOM 4068 C ARG B 367 13.529 −15.083 94.759 1.00 44.98 C ATOM 4069 O ARG B 367 13.737 −16.230 95.156 1.00 45.15 O ATOM 4070 CB ARG B 367 11.209 −14.157 94.959 1.00 45.16 C ATOM 4071 CG ARG B 367 10.533 −15.517 95.025 1.00 45.58 C ATOM 4072 CD ARG B 367 9.034 −15.434 94.802 1.00 46.25 C ATOM 4073 NE ARG B 367 8.670 −15.472 93.387 1.00 47.11 N ATOM 4074 CZ ARG B 367 8.644 −16.571 92.633 1.00 47.46 C ATOM 4075 NH1 ARG B 367 8.983 −17.753 93.142 1.00 47.77 N ATOM 4076 NH2 ARG B 367 8.285 −16.486 91.358 1.00 47.42 N ATOM 4077 N LEU B 368 14.068 −14.599 93.646 1.00 44.89 N ATOM 4078 CA LEU B 368 14.708 −15.486 92.671 1.00 44.77 C ATOM 4079 C LEU B 368 16.237 −15.579 92.741 1.00 44.73 C ATOM 4080 O LEU B 368 16.812 −16.589 92.334 1.00 44.75 O ATOM 4081 CB LEU B 368 14.229 −15.148 91.255 1.00 44.76 C ATOM 4082 CG LEU B 368 12.786 −15.579 90.963 1.00 44.78 C ATOM 4083 CD1 LEU B 368 12.110 −14.628 89.985 1.00 45.16 C ATOM 4084 CD2 LEU B 368 12.719 −17.024 90.463 1.00 45.06 C ATOM 4085 N HIS B 369 16.878 −14.524 93.244 1.00 44.65 N ATOM 4086 CA HIS B 369 18.330 −14.482 93.457 1.00 44.62 C ATOM 4087 C HIS B 369 18.676 −13.314 94.379 1.00 44.62 C ATOM 4088 O HIS B 369 17.784 −12.595 94.830 1.00 44.69 O ATOM 4089 CB HIS B 369 19.088 −14.358 92.129 1.00 44.66 C ATOM 4090 CG HIS B 369 18.498 −13.355 91.189 1.00 44.74 C ATOM 4091 ND1 HIS B 369 18.651 −11.995 91.358 1.00 44.68 N ATOM 4092 CD2 HIS B 369 17.746 −13.513 90.074 1.00 44.34 C ATOM 4093 CE1 HIS B 369 18.021 −11.360 90.387 1.00 44.02 C ATOM 4094 NE2 HIS B 369 17.464 −12.258 89.595 1.00 44.13 N ATOM 4095 N SER B 370 19.963 −13.130 94.660 1.00 44.71 N ATOM 4096 CA SER B 370 20.413 −12.031 95.516 1.00 44.85 C ATOM 4097 C SER B 370 21.070 −10.874 94.749 1.00 44.90 C ATOM 4098 O SER B 370 21.878 −10.129 95.308 1.00 45.06 O ATOM 4099 CB SER B 370 21.339 −12.551 96.626 1.00 44.88 C ATOM 4100 OG SER B 370 22.632 −12.845 96.138 1.00 44.99 O ATOM 4101 N SER B 371 20.717 −10.716 93.475 1.00 44.98 N ATOM 4102 CA SER B 371 21.215 −9.588 92.688 1.00 45.00 C ATOM 4103 C SER B 371 20.292 −8.371 92.790 1.00 44.99 C ATOM 4104 O SER B 371 19.149 −8.479 93.239 1.00 44.97 O ATOM 4105 CB SER B 371 21.434 −9.994 91.232 1.00 45.05 C ATOM 4106 OG SER B 371 22.617 −10.761 91.102 1.00 45.18 O ATOM 4107 N ASP B 372 20.797 −7.215 92.369 1.00 44.92 N ATOM 4108 CA ASP B 372 20.069 −5.954 92.502 1.00 44.79 C ATOM 4109 C ASP B 372 18.957 −5.768 91.451 1.00 44.74 C ATOM 4110 O ASP B 372 18.801 −4.683 90.883 1.00 44.57 O ATOM 4111 CB ASP B 372 21.055 −4.776 92.495 1.00 44.77 C ATOM 4112 CG ASP B 372 22.114 −4.888 93.586 1.00 44.78 C ATOM 4113 OD1 ASP B 372 21.822 −5.457 94.659 1.00 44.27 O ATOM 4114 OD2 ASP B 372 23.244 −4.401 93.371 1.00 45.46 O ATOM 4115 N TRP B 373 18.189 −6.835 91.213 1.00 44.81 N ATOM 4116 CA TRP B 373 17.060 −6.835 90.269 1.00 44.96 C ATOM 4117 C TRP B 373 16.212 −8.111 90.397 1.00 45.10 C ATOM 4118 O TRP B 373 16.465 −8.946 91.265 1.00 45.06 O ATOM 4119 CB TRP B 373 17.554 −6.677 88.826 1.00 44.83 C ATOM 4120 CG TRP B 373 18.462 −7.785 88.378 1.00 44.82 C ATOM 4121 CD1 TRP B 373 18.090 −9.028 87.944 1.00 44.62 C ATOM 4122 CD2 TRP B 373 19.891 −7.750 88.317 1.00 44.65 C ATOM 4123 NE1 TRP B 373 19.199 −9.769 87.621 1.00 44.43 N ATOM 4124 CE2 TRP B 373 20.318 −9.010 87.838 1.00 44.62 C ATOM 4125 CE3 TRP B 373 20.853 −6.777 88.618 1.00 44.70 C ATOM 4126 CZ2 TRP B 373 21.667 −9.322 87.652 1.00 44.50 C ATOM 4127 CZ3 TRP B 373 22.196 −7.091 88.437 1.00 44.79 C ATOM 4128 CH2 TRP B 373 22.588 −8.354 87.957 1.00 44.65 C ATOM 4129 N GLY B 374 15.218 −8.257 89.524 1.00 45.41 N ATOM 4130 CA GLY B 374 14.335 −9.429 89.527 1.00 46.01 C ATOM 4131 C GLY B 374 12.984 −9.168 90.169 1.00 46.28 C ATOM 4132 O GLY B 374 12.479 −8.046 90.126 1.00 46.37 O ATOM 4133 N ASP B 375 12.391 −10.211 90.749 1.00 46.67 N ATOM 4134 CA ASP B 375 11.153 −10.068 91.510 1.00 46.93 C ATOM 4135 C ASP B 375 11.481 −9.769 92.961 1.00 47.23 C ATOM 4136 O ASP B 375 11.916 −10.651 93.709 1.00 47.40 O ATOM 4137 CB ASP B 375 10.274 −11.319 91.409 1.00 46.99 C ATOM 4138 CG ASP B 375 9.056 −11.260 92.329 1.00 46.98 C ATOM 4139 OD1 ASP B 375 8.441 −10.180 92.468 1.00 47.12 O ATOM 4140 OD2 ASP B 375 8.713 −12.303 92.916 1.00 46.95 O ATOM 4141 N ILE B 376 11.280 −8.510 93.340 1.00 47.52 N ATOM 4142 CA ILE B 376 11.541 −8.043 94.695 1.00 47.73 C ATOM 4143 C ILE B 376 10.289 −7.381 95.266 1.00 48.20 C ATOM 4144 O ILE B 376 9.669 −6.534 94.613 1.00 48.20 O ATOM 4145 CB ILE B 376 12.717 −7.037 94.746 1.00 47.53 C ATOM 4146 CG1 ILE B 376 13.933 −7.575 93.984 1.00 47.62 C ATOM 4147 CG2 ILE B 376 13.081 −6.710 96.192 1.00 47.41 C ATOM 4148 CD1 ILE B 376 15.052 −6.559 93.780 1.00 47.57 C ATOM 4149 N GLY B 377 9.924 −7.780 96.483 1.00 48.57 N ATOM 4150 CA GLY B 377 8.837 −7.141 97.213 1.00 49.24 C ATOM 4151 C GLY B 377 9.353 −6.303 98.365 1.00 49.81 C ATOM 4152 O GLY B 377 10.409 −6.591 98.932 1.00 49.81 O ATOM 4153 N MET B 378 8.621 −5.247 98.697 1.00 50.50 N ATOM 4154 CA MET B 378 8.917 −4.466 99.889 1.00 51.26 C ATOM 4155 C MET B 378 8.093 −5.069 101.023 1.00 52.00 C ATOM 4156 O MET B 378 6.862 −5.055 100.973 1.00 52.07 O ATOM 4157 CB MET B 378 8.576 −2.985 99.688 1.00 51.01 C ATOM 4158 CG MET B 378 9.220 −2.314 98.468 1.00 50.64 C ATOM 4159 SD MET B 378 10.994 −1.972 98.586 1.00 49.65 S ATOM 4160 CE MET B 378 11.700 −3.429 97.816 1.00 49.55 C ATOM 4161 N VAL B 379 8.773 −5.623 102.024 1.00 52.85 N ATOM 4162 CA VAL B 379 8.090 −6.301 103.129 1.00 53.77 C ATOM 4163 C VAL B 379 8.565 −5.832 104.500 1.00 54.44 C ATOM 4164 O VAL B 379 9.725 −5.448 104.673 1.00 54.47 O ATOM 4165 CB VAL B 379 8.210 −7.853 103.047 1.00 53.67 C ATOM 4166 CG1 VAL B 379 7.345 −8.411 101.917 1.00 53.82 C ATOM 4167 CG2 VAL B 379 9.668 −8.290 102.899 1.00 53.59 C ATOM 4168 N ILE B 380 7.651 −5.863 105.468 1.00 55.29 N ATOM 4169 CA ILE B 380 7.976 −5.541 106.855 1.00 56.03 C ATOM 4170 C ILE B 380 7.469 −6.591 107.846 1.00 56.52 C ATOM 4171 O ILE B 380 6.537 −7.345 107.554 1.00 56.49 O ATOM 4172 CB ILE B 380 7.466 −4.127 107.275 1.00 56.02 C ATOM 4173 CG1 ILE B 380 5.968 −3.957 106.984 1.00 56.35 C ATOM 4174 CG2 ILE B 380 8.289 −3.025 106.610 1.00 56.03 C ATOM 4175 CD1 ILE B 380 5.061 −4.298 108.159 1.00 56.33 C ATOM 4176 N ARG B 381 8.109 −6.632 109.011 1.00 57.23 N ATOM 4177 CA ARG B 381 7.662 −7.442 110.140 1.00 57.82 C ATOM 4178 C ARG B 381 7.702 −6.591 111.408 1.00 58.23 C ATOM 4179 O ARG B 381 8.651 −5.832 111.627 1.00 58.21 O ATOM 4180 CB ARG B 381 8.520 −8.701 110.288 1.00 57.70 C ATOM 4181 CG ARG B 381 8.238 −9.771 109.233 1.00 57.88 C ATOM 4182 CD ARG B 381 8.938 −11.087 109.549 1.00 58.00 C ATOM 4183 NE ARG B 381 8.420 −11.712 110.766 1.00 57.96 N ATOM 4184 CZ ARG B 381 8.975 −12.754 111.382 1.00 57.98 C ATOM 4185 NH1 ARG B 381 10.083 −13.310 110.907 1.00 57.46 N ATOM 4186 NH2 ARG B 381 8.418 −13.241 112.483 1.00 58.15 N ATOM 4187 N ARG B 382 6.666 −6.725 112.234 1.00 58.83 N ATOM 4188 CA ARG B 382 6.459 −5.837 113.379 1.00 59.30 C ATOM 4189 C ARG B 382 6.782 −6.474 114.729 1.00 59.69 C ATOM 4190 O ARG B 382 6.727 −7.696 114.880 1.00 59.82 O ATOM 4191 CB ARG B 382 5.018 −5.326 113.382 1.00 59.28 C ATOM 4192 CG ARG B 382 4.686 −4.378 112.237 1.00 59.41 C ATOM 4193 CD ARG B 382 3.249 −3.879 112.289 1.00 59.34 C ATOM 4194 NE ARG B 382 3.007 −2.992 113.425 1.00 59.66 N ATOM 4195 CZ ARG B 382 2.445 −3.370 114.572 1.00 60.05 C ATOM 4196 NH1 ARG B 382 2.056 −4.629 114.752 1.00 59.80 N ATOM 4197 NH2 ARG B 382 2.268 −2.486 115.545 1.00 59.89 N ATOM 4198 N SER B 383 7.117 −5.634 115.708 1.00 60.20 N ATOM 4199 CA SER B 383 7.337 −6.086 117.084 1.00 60.66 C ATOM 4200 C SER B 383 6.814 −5.083 118.104 1.00 60.93 C ATOM 4201 O SER B 383 7.239 −3.926 118.124 1.00 60.94 O ATOM 4202 CB SER B 383 8.816 −6.362 117.347 1.00 60.65 C ATOM 4203 OG SER B 383 9.017 −6.788 118.681 1.00 60.84 O ATOM 4204 N GLU B 384 5.895 −5.546 118.948 1.00 61.31 N ATOM 4205 CA GLU B 384 5.325 −4.737 120.022 1.00 61.55 C ATOM 4206 C GLU B 384 6.128 −4.961 121.295 1.00 61.62 C ATOM 4207 O GLU B 384 6.102 −4.138 122.209 1.00 61.58 O ATOM 4208 CB GLU B 384 3.857 −5.115 120.279 1.00 61.63 C ATOM 4209 CG GLU B 384 2.995 −5.340 119.033 1.00 61.92 C ATOM 4210 CD GLU B 384 3.219 −6.703 118.384 1.00 62.54 C ATOM 4211 OE1 GLU B 384 3.764 −7.613 119.049 1.00 62.91 O ATOM 4212 OE2 GLU B 384 2.852 −6.866 117.201 1.00 62.79 O ATOM 4213 N ASP B 385 6.849 −6.079 121.334 1.00 61.85 N ATOM 4214 CA ASP B 385 7.555 −6.523 122.535 1.00 62.15 C ATOM 4215 C ASP B 385 9.067 −6.260 122.500 1.00 62.19 C ATOM 4216 O ASP B 385 9.860 −7.099 122.941 1.00 62.23 O ATOM 4217 CB ASP B 385 7.263 −8.012 122.802 1.00 62.24 C ATOM 4218 CG ASP B 385 7.516 −8.898 121.582 1.00 62.66 C ATOM 4219 OD1 ASP B 385 8.534 −8.699 120.881 1.00 63.07 O ATOM 4220 OD2 ASP B 385 6.696 −9.807 121.329 1.00 62.71 O ATOM 4221 N ASN B 386 9.452 −5.092 121.979 1.00 62.23 N ATOM 4222 CA ASN B 386 10.861 −4.659 121.909 1.00 62.19 C ATOM 4223 C ASN B 386 11.814 −5.638 121.193 1.00 62.10 C ATOM 4224 O ASN B 386 13.010 −5.703 121.499 1.00 62.04 O ATOM 4225 CB ASN B 386 11.388 −4.289 123.312 1.00 62.17 C ATOM 4226 CG ASN B 386 12.706 −3.518 123.267 1.00 62.21 C ATOM 4227 OD1 ASN B 386 13.022 −2.851 122.278 1.00 62.54 O ATOM 4228 ND2 ASN B 386 13.480 −3.611 124.343 1.00 61.54 N ATOM 4229 N GLY B 387 11.280 −6.391 120.236 1.00 62.02 N ATOM 4230 CA GLY B 387 12.087 −7.322 119.454 1.00 62.00 C ATOM 4231 C GLY B 387 12.296 −8.676 120.104 1.00 62.01 C ATOM 4232 O GLY B 387 13.271 −9.366 119.804 1.00 62.00 O ATOM 4233 N LYS B 388 11.382 −9.052 120.996 1.00 62.00 N ATOM 4234 CA LYS B 388 11.386 −10.380 121.603 1.00 62.00 C ATOM 4235 C LYS B 388 10.924 −11.389 120.549 1.00 61.88 C ATOM 4236 O LYS B 388 11.704 −12.239 120.115 1.00 61.91 O ATOM 4237 CB LYS B 388 10.486 −10.398 122.848 1.00 62.09 C ATOM 4238 CG LYS B 388 10.386 −11.732 123.587 1.00 62.24 C ATOM 4239 CD LYS B 388 9.306 −11.670 124.666 1.00 62.14 C ATOM 4240 CE LYS B 388 8.913 −13.053 125.166 1.00 62.55 C ATOM 4241 NZ LYS B 388 9.897 −13.611 126.137 1.00 62.98 N ATOM 4242 N THR B 389 9.662 −11.274 120.137 1.00 61.73 N ATOM 4243 CA THR B 389 9.110 −12.050 119.022 1.00 61.54 C ATOM 4244 C THR B 389 8.523 −11.096 117.970 1.00 61.30 C ATOM 4245 O THR B 389 8.168 −9.954 118.285 1.00 61.22 O ATOM 4246 CB THR B 389 8.021 −13.067 119.484 1.00 61.69 C ATOM 4247 OG1 THR B 389 6.980 −12.380 120.192 1.00 61.65 O ATOM 4248 CG2 THR B 389 8.615 −14.162 120.377 1.00 61.60 C ATOM 4249 N TRP B 390 8.417 −11.567 116.728 1.00 60.89 N ATOM 4250 CA TRP B 390 7.989 −10.716 115.617 1.00 60.51 C ATOM 4251 C TRP B 390 6.728 −11.226 114.912 1.00 60.15 C ATOM 4252 O TRP B 390 6.528 −12.435 114.774 1.00 60.17 O ATOM 4253 CB TRP B 390 9.131 −10.539 114.605 1.00 60.56 C ATOM 4254 CG TRP B 390 10.385 −9.913 115.183 1.00 60.76 C ATOM 4255 CD1 TRP B 390 11.354 −10.545 115.913 1.00 60.87 C ATOM 4256 CD2 TRP B 390 10.804 −8.543 115.065 1.00 60.96 C ATOM 4257 NE1 TRP B 390 12.343 −9.656 116.261 1.00 60.96 N ATOM 4258 CE2 TRP B 390 12.034 −8.421 115.754 1.00 60.90 C ATOM 4259 CE3 TRP B 390 10.262 −7.407 114.442 1.00 61.10 C ATOM 4260 CZ2 TRP B 390 12.732 −7.207 115.841 1.00 60.71 C ATOM 4261 CZ3 TRP B 390 10.957 −6.197 114.531 1.00 60.75 C ATOM 4262 CH2 TRP B 390 12.178 −6.111 115.227 1.00 60.81 C ATOM 4263 N GLY B 391 5.889 −10.293 114.463 1.00 59.61 N ATOM 4264 CA GLY B 391 4.686 −10.624 113.700 1.00 59.05 C ATOM 4265 C GLY B 391 5.012 −11.118 112.303 1.00 58.74 C ATOM 4266 O GLY B 391 6.179 −11.213 111.926 1.00 58.88 O ATOM 4267 N ASP B 392 3.979 −11.421 111.524 1.00 58.31 N ATOM 4268 CA ASP B 392 4.163 −11.994 110.189 1.00 57.92 C ATOM 4269 C ASP B 392 4.589 −10.968 109.134 1.00 57.59 C ATOM 4270 O ASP B 392 4.887 −9.817 109.458 1.00 57.63 O ATOM 4271 CB ASP B 392 2.895 −12.735 109.747 1.00 57.96 C ATOM 4272 CG ASP B 392 2.647 −14.000 110.549 1.00 57.76 C ATOM 4273 OD1 ASP B 392 3.622 −14.708 110.886 1.00 57.35 O ATOM 4274 OD2 ASP B 392 1.470 −14.288 110.836 1.00 57.88 O ATOM 4275 N ARG B 393 4.621 −11.400 107.874 1.00 57.12 N ATOM 4276 CA ARG B 393 5.016 −10.538 106.762 1.00 56.62 C ATOM 4277 C ARG B 393 3.837 −9.740 106.223 1.00 55.94 C ATOM 4278 O ARG B 393 2.779 −10.301 105.907 1.00 55.95 O ATOM 4279 CB ARG B 393 5.626 −11.357 105.619 1.00 56.69 C ATOM 4280 CG ARG B 393 6.905 −12.115 105.960 1.00 57.12 C ATOM 4281 CD ARG B 393 7.416 −12.880 104.739 1.00 57.27 C ATOM 4282 NE ARG B 393 6.453 −13.874 104.257 1.00 58.49 N ATOM 4283 CZ ARG B 393 6.726 −15.160 104.048 1.00 58.97 C ATOM 4284 NH1 ARG B 393 7.949 −15.637 104.256 1.00 59.42 N ATOM 4285 NH2 ARG B 393 5.773 −15.973 103.612 1.00 59.05 N ATOM 4286 N VAL B 394 4.028 −8.429 106.121 1.00 55.02 N ATOM 4287 CA VAL B 394 3.068 −7.555 105.459 1.00 54.11 C ATOM 4288 C VAL B 394 3.744 −6.927 104.245 1.00 53.41 C ATOM 4289 O VAL B 394 4.675 −6.126 104.381 1.00 53.48 O ATOM 4290 CB VAL B 394 2.540 −6.454 106.403 1.00 54.16 C ATOM 4291 CG1 VAL B 394 1.554 −5.543 105.672 1.00 54.33 C ATOM 4292 CG2 VAL B 394 1.890 −7.071 107.631 1.00 54.23 C ATOM 4293 N THR B 395 3.286 −7.309 103.059 1.00 52.35 N ATOM 4294 CA THR B 395 3.852 −6.785 101.825 1.00 51.30 C ATOM 4295 C THR B 395 3.377 −5.348 101.592 1.00 50.60 C ATOM 4296 O THR B 395 2.174 −5.077 101.528 1.00 50.44 O ATOM 4297 CB THR B 395 3.513 −7.685 100.615 1.00 51.36 C ATOM 4298 OG1 THR B 395 3.799 −9.051 100.938 1.00 51.10 O ATOM 4299 CG2 THR B 395 4.328 −7.279 99.392 1.00 51.41 C ATOM 4300 N ILE B 396 4.339 −4.435 101.498 1.00 49.63 N ATOM 4301 CA ILE B 396 4.070 −3.032 101.201 1.00 48.62 C ATOM 4302 C ILE B 396 3.750 −2.879 99.715 1.00 47.87 C ATOM 4303 O ILE B 396 2.710 −2.329 99.348 1.00 47.76 O ATOM 4304 CB ILE B 396 5.269 −2.128 101.593 1.00 48.69 C ATOM 4305 CG1 ILE B 396 5.470 −2.123 103.115 1.00 48.69 C ATOM 4306 CG2 ILE B 396 5.075 −0.710 101.060 1.00 48.75 C ATOM 4307 CD1 ILE B 396 6.683 −1.323 103.598 1.00 48.63 C ATOM 4308 N THR B 397 4.654 −3.370 98.872 1.00 47.01 N ATOM 4309 CA THR B 397 4.486 −3.347 97.423 1.00 46.16 C ATOM 4310 C THR B 397 5.247 −4.513 96.810 1.00 45.64 C ATOM 4311 O THR B 397 6.390 −4.787 97.188 1.00 45.47 O ATOM 4312 CB THR B 397 5.021 −2.027 96.794 1.00 46.19 C ATOM 4313 OG1 THR B 397 4.451 −0.895 97.461 1.00 46.02 O ATOM 4314 CG2 THR B 397 4.683 −1.952 95.310 1.00 45.89 C ATOM 4315 N ASN B 398 4.601 −5.208 95.881 1.00 44.97 N ATOM 4316 CA ASN B 398 5.290 −6.151 95.013 1.00 44.52 C ATOM 4317 C ASN B 398 4.607 −6.196 93.667 1.00 44.22 C ATOM 4318 O ASN B 398 3.491 −6.702 93.547 1.00 44.41 O ATOM 4319 CB ASN B 398 5.347 −7.553 95.624 1.00 44.55 C ATOM 4320 CG ASN B 398 6.351 −8.459 94.921 1.00 44.54 C ATOM 4321 OD1 ASN B 398 6.687 −8.267 93.746 1.00 44.31 O ATOM 4322 ND2 ASN B 398 6.839 −9.456 95.648 1.00 44.71 N ATOM 4323 N LEU B 399 5.279 −5.659 92.656 1.00 43.79 N ATOM 4324 CA LEU B 399 4.722 −5.620 91.311 1.00 43.45 C ATOM 4325 C LEU B 399 4.800 −7.002 90.681 1.00 43.31 C ATOM 4326 O LEU B 399 5.805 −7.697 90.829 1.00 43.25 O ATOM 4327 CB LEU B 399 5.442 −4.577 90.451 1.00 43.32 C ATOM 4328 CG LEU B 399 5.396 −3.125 90.948 1.00 43.02 C ATOM 4329 CD1 LEU B 399 6.385 −2.259 90.187 1.00 42.65 C ATOM 4330 CD2 LEU B 399 3.994 −2.542 90.863 1.00 42.52 C ATOM 4331 N ARG B 400 3.727 −7.402 90.002 1.00 43.23 N ATOM 4332 CA ARG B 400 3.667 −8.713 89.365 1.00 43.33 C ATOM 4333 C ARG B 400 4.728 −8.845 88.273 1.00 43.68 C ATOM 4334 O ARG B 400 5.140 −7.849 87.670 1.00 43.71 O ATOM 4335 CB ARG B 400 2.264 −9.007 88.819 1.00 43.24 C ATOM 4336 CG ARG B 400 1.805 −8.133 87.651 1.00 43.22 C ATOM 4337 CD ARG B 400 0.375 −8.483 87.256 1.00 43.00 C ATOM 4338 NE ARG B 400 −0.127 −7.677 86.144 1.00 42.29 N ATOM 4339 CZ ARG B 400 −0.216 −8.095 84.883 1.00 42.43 C ATOM 4340 NH1 ARG B 400 0.172 −9.320 84.547 1.00 42.64 N ATOM 4341 NH2 ARG B 400 −0.692 −7.284 83.949 1.00 42.17 N ATOM 4342 N ASP B 401 5.179 −10.074 88.041 1.00 43.91 N ATOM 4343 CA ASP B 401 6.196 −10.344 87.032 1.00 44.05 C ATOM 4344 C ASP B 401 5.606 −10.260 85.625 1.00 43.88 C ATOM 4345 O ASP B 401 4.388 −10.177 85.458 1.00 43.93 O ATOM 4346 CB ASP B 401 6.843 −11.717 87.269 1.00 44.27 C ATOM 4347 CG ASP B 401 5.852 −12.873 87.130 1.00 45.42 C ATOM 4348 OD1 ASP B 401 4.777 −12.830 87.775 1.00 46.37 O ATOM 4349 OD2 ASP B 401 6.159 −13.835 86.385 1.00 46.40 O ATOM 4350 N ASN B 402 6.481 −10.243 84.624 1.00 43.70 N ATOM 4351 CA ASN B 402 6.067 −10.419 83.243 1.00 43.53 C ATOM 4352 C ASN B 402 6.002 −11.918 82.994 1.00 43.56 C ATOM 4353 O ASN B 402 7.033 −12.594 83.033 1.00 43.58 O ATOM 4354 CB ASN B 402 7.058 −9.750 82.283 1.00 43.44 C ATOM 4355 CG ASN B 402 6.608 −9.803 80.827 1.00 43.21 C ATOM 4356 OD1 ASN B 402 5.542 −10.331 80.506 1.00 43.76 O ATOM 4357 ND2 ASN B 402 7.424 −9.248 79.940 1.00 42.61 N ATOM 4358 N PRO B 403 4.787 −12.451 82.767 1.00 43.51 N ATOM 4359 CA PRO B 403 4.658 −13.883 82.517 1.00 43.41 C ATOM 4360 C PRO B 403 5.164 −14.273 81.128 1.00 43.36 C ATOM 4361 O PRO B 403 5.332 −15.459 80.851 1.00 43.35 O ATOM 4362 CB PRO B 403 3.148 −14.119 82.626 1.00 43.42 C ATOM 4363 CG PRO B 403 2.538 −12.818 82.239 1.00 43.40 C ATOM 4364 CD PRO B 403 3.482 −11.761 82.737 1.00 43.45 C ATOM 4365 N LYS B 404 5.400 −13.281 80.270 1.00 43.25 N ATOM 4366 CA LYS B 404 5.856 −13.530 78.898 1.00 43.29 C ATOM 4367 C LYS B 404 7.365 −13.346 78.695 1.00 43.18 C ATOM 4368 O LYS B 404 7.899 −13.706 77.645 1.00 43.11 O ATOM 4369 CB LYS B 404 5.069 −12.674 77.897 1.00 43.20 C ATOM 4370 CG LYS B 404 3.594 −13.049 77.776 1.00 43.76 C ATOM 4371 CD LYS B 404 3.399 −14.420 77.142 1.00 44.35 C ATOM 4372 CE LYS B 404 1.998 −14.960 77.402 1.00 44.96 C ATOM 4373 NZ LYS B 404 0.967 −14.304 76.546 1.00 45.38 N ATOM 4374 N ALA B 405 8.039 −12.788 79.701 1.00 43.05 N ATOM 4375 CA ALA B 405 9.483 −12.562 79.655 1.00 42.95 C ATOM 4376 C ALA B 405 10.259 −13.872 79.541 1.00 42.96 C ATOM 4377 O ALA B 405 10.077 −14.790 80.351 1.00 43.00 O ATOM 4378 CB ALA B 405 9.936 −11.782 80.881 1.00 42.92 C ATOM 4379 N SER B 406 11.133 −13.942 78.539 1.00 42.86 N ATOM 4380 CA SER B 406 11.881 −15.164 78.233 1.00 42.69 C ATOM 4381 C SER B 406 12.944 −15.521 79.283 1.00 42.54 C ATOM 4382 O SER B 406 13.562 −16.584 79.205 1.00 42.55 O ATOM 4383 CB SER B 406 12.502 −15.072 76.836 1.00 42.73 C ATOM 4384 OG SER B 406 13.423 −14.001 76.763 1.00 42.63 O ATOM 4385 N ASP B 407 13.140 −14.638 80.263 1.00 42.43 N ATOM 4386 CA ASP B 407 14.057 −14.881 81.383 1.00 42.09 C ATOM 4387 C ASP B 407 13.456 −14.316 82.671 1.00 42.12 C ATOM 4388 O ASP B 407 13.482 −13.101 82.884 1.00 42.19 O ATOM 4389 CB ASP B 407 15.432 −14.254 81.103 1.00 41.88 C ATOM 4390 CG ASP B 407 16.457 −14.531 82.205 1.00 41.41 C ATOM 4391 OD1 ASP B 407 16.109 −15.118 83.253 1.00 40.91 O ATOM 4392 OD2 ASP B 407 17.632 −14.154 82.013 1.00 40.70 O ATOM 4393 N PRO B 408 12.909 −15.196 83.534 1.00 42.01 N ATOM 4394 CA PRO B 408 12.267 −14.760 84.779 1.00 41.78 C ATOM 4395 C PRO B 408 13.180 −13.985 85.740 1.00 41.65 C ATOM 4396 O PRO B 408 12.686 −13.145 86.497 1.00 41.65 O ATOM 4397 CB PRO B 408 11.807 −16.077 85.417 1.00 41.81 C ATOM 4398 CG PRO B 408 11.694 −17.034 84.270 1.00 41.90 C ATOM 4399 CD PRO B 408 12.839 −16.660 83.375 1.00 42.12 C ATOM 4400 N SER B 409 14.486 −14.254 85.704 1.00 41.25 N ATOM 4401 CA SER B 409 15.439 −13.614 86.621 1.00 40.98 C ATOM 4402 C SER B 409 15.524 −12.099 86.433 1.00 40.65 C ATOM 4403 O SER B 409 15.719 −11.360 87.398 1.00 40.63 O ATOM 4404 CB SER B 409 16.832 −14.240 86.494 1.00 41.07 C ATOM 4405 OG SER B 409 17.441 −13.892 85.261 1.00 41.54 O ATOM 4406 N ILE B 410 15.382 −11.651 85.189 1.00 40.26 N ATOM 4407 CA ILE B 410 15.348 −10.223 84.867 1.00 39.83 C ATOM 4408 C ILE B 410 13.993 −9.813 84.277 1.00 39.58 C ATOM 4409 O ILE B 410 13.875 −8.776 83.626 1.00 39.49 O ATOM 4410 CB ILE B 410 16.492 −9.826 83.889 1.00 40.07 C ATOM 4411 CG1 ILE B 410 16.392 −10.604 82.565 1.00 39.81 C ATOM 4412 CG2 ILE B 410 17.859 −10.019 84.551 1.00 39.82 C ATOM 4413 CD1 ILE B 410 17.123 −9.948 81.396 1.00 39.65 C ATOM 4414 N GLY B 411 12.972 −10.628 84.522 1.00 39.32 N ATOM 4415 CA GLY B 411 11.692 −10.475 83.838 1.00 39.13 C ATOM 4416 C GLY B 411 10.577 −9.865 84.659 1.00 38.89 C ATOM 4417 O GLY B 411 9.408 −10.222 84.488 1.00 38.80 O ATOM 4418 N SER B 412 10.934 −8.934 85.539 1.00 38.61 N ATOM 4419 CA SER B 412 9.958 −8.315 86.425 1.00 38.45 C ATOM 4420 C SER B 412 10.272 −6.847 86.663 1.00 38.34 C ATOM 4421 O SER B 412 11.442 −6.474 86.737 1.00 38.44 O ATOM 4422 CB SER B 412 9.906 −9.062 87.762 1.00 38.54 C ATOM 4423 OG SER B 412 9.226 −8.312 88.752 1.00 38.11 O ATOM 4424 N PRO B 413 9.224 −6.006 86.766 1.00 38.25 N ATOM 4425 CA PRO B 413 9.381 −4.645 87.269 1.00 38.04 C ATOM 4426 C PRO B 413 9.919 −4.707 88.689 1.00 38.02 C ATOM 4427 O PRO B 413 9.565 −5.616 89.441 1.00 38.02 O ATOM 4428 CB PRO B 413 7.952 −4.100 87.267 1.00 38.05 C ATOM 4429 CG PRO B 413 7.217 −4.945 86.295 1.00 38.13 C ATOM 4430 CD PRO B 413 7.829 −6.296 86.387 1.00 38.17 C ATOM 4431 N VAL B 414 10.756 −3.739 89.047 1.00 38.00 N ATOM 4432 CA VAL B 414 11.584 −3.829 90.241 1.00 38.01 C ATOM 4433 C VAL B 414 11.307 −2.723 91.265 1.00 38.24 C ATOM 4434 O VAL B 414 11.176 −1.548 90.916 1.00 38.31 O ATOM 4435 CB VAL B 414 13.100 −3.816 89.854 1.00 37.97 C ATOM 4436 CG1 VAL B 414 14.000 −3.888 91.087 1.00 38.00 C ATOM 4437 CG2 VAL B 414 13.429 −4.959 88.896 1.00 37.76 C ATOM 4438 N ASN B 415 11.204 −3.121 92.531 1.00 38.37 N ATOM 4439 CA ASN B 415 11.379 −2.204 93.650 1.00 38.54 C ATOM 4440 C ASN B 415 12.604 −2.646 94.428 1.00 38.73 C ATOM 4441 O ASN B 415 12.893 −3.839 94.499 1.00 38.71 O ATOM 4442 CB ASN B 415 10.143 −2.170 94.540 1.00 38.44 C ATOM 4443 CG ASN B 415 8.976 −1.478 93.879 1.00 38.66 C ATOM 4444 OD1 ASN B 415 9.075 −0.319 93.468 1.00 38.26 O ATOM 4445 ND2 ASN B 415 7.859 −2.186 93.765 1.00 39.63 N ATOM 4446 N ILE B 416 13.332 −1.691 94.999 1.00 39.03 N ATOM 4447 CA ILE B 416 14.634 −1.985 95.601 1.00 39.28 C ATOM 4448 C ILE B 416 15.098 −0.855 96.521 1.00 39.52 C ATOM 4449 O ILE B 416 14.970 0.316 96.171 1.00 39.66 O ATOM 4450 CB ILE B 416 15.690 −2.306 94.495 1.00 39.29 C ATOM 4451 CG1 ILE B 416 17.053 −2.656 95.096 1.00 39.12 C ATOM 4452 CG2 ILE B 416 15.783 −1.174 93.458 1.00 39.35 C ATOM 4453 CD1 ILE B 416 17.960 −3.371 94.122 1.00 38.77 C ATOM 4454 N ASP B 417 15.620 −1.221 97.696 1.00 39.86 N ATOM 4455 CA ASP B 417 16.148 −0.273 98.703 1.00 40.28 C ATOM 4456 C ASP B 417 15.056 0.593 99.325 1.00 40.68 C ATOM 4457 O ASP B 417 14.347 1.301 98.616 1.00 40.89 O ATOM 4458 CB ASP B 417 17.246 0.642 98.126 1.00 39.98 C ATOM 4459 CG ASP B 417 18.463 −0.121 97.620 1.00 39.77 C ATOM 4460 OD1 ASP B 417 18.707 −1.270 98.055 1.00 39.27 O ATOM 4461 OD2 ASP B 417 19.192 0.450 96.782 1.00 39.23 O ATOM 4462 N MET B 418 14.930 0.557 100.647 1.00 41.03 N ATOM 4463 CA MET B 418 13.948 1.406 101.315 1.00 41.62 C ATOM 4464 C MET B 418 14.532 2.235 102.456 1.00 41.60 C ATOM 4465 O MET B 418 15.510 1.841 103.101 1.00 41.31 O ATOM 4466 CB MET B 418 12.749 0.585 101.804 1.00 41.57 C ATOM 4467 CG MET B 418 13.014 −0.253 103.051 1.00 42.12 C ATOM 4468 SD MET B 418 11.604 −1.265 103.541 1.00 42.95 S ATOM 4469 CE MET B 418 10.501 −0.042 104.219 1.00 42.03 C ATOM 4470 N VAL B 419 13.923 3.398 102.672 1.00 41.88 N ATOM 4471 CA VAL B 419 14.166 4.214 103.855 1.00 42.05 C ATOM 4472 C VAL B 419 12.874 4.245 104.669 1.00 42.21 C ATOM 4473 O VAL B 419 11.789 4.432 104.113 1.00 41.92 O ATOM 4474 CB VAL B 419 14.605 5.658 103.488 1.00 42.04 C ATOM 4475 CG1 VAL B 419 14.719 6.534 104.731 1.00 42.00 C ATOM 4476 CG2 VAL B 419 15.925 5.648 102.746 1.00 42.11 C ATOM 4477 N LEU B 420 12.994 4.038 105.979 1.00 42.57 N ATOM 4478 CA LEU B 420 11.866 4.209 106.893 1.00 42.93 C ATOM 4479 C LEU B 420 12.037 5.482 107.707 1.00 43.21 C ATOM 4480 O LEU B 420 13.161 5.883 108.000 1.00 43.35 O ATOM 4481 CB LEU B 420 11.729 3.002 107.823 1.00 42.97 C ATOM 4482 CG LEU B 420 11.101 1.734 107.246 1.00 42.73 C ATOM 4483 CD1 LEU B 420 11.460 0.525 108.092 1.00 42.83 C ATOM 4484 CD2 LEU B 420 9.585 1.874 107.124 1.00 43.15 C ATOM 4485 N VAL B 421 10.923 6.118 108.057 1.00 43.75 N ATOM 4486 CA VAL B 421 10.935 7.322 108.898 1.00 44.40 C ATOM 4487 C VAL B 421 9.526 7.629 109.425 1.00 44.99 C ATOM 4488 O VAL B 421 8.532 7.289 108.776 1.00 45.16 O ATOM 4489 CB VAL B 421 11.540 8.549 108.140 1.00 44.28 C ATOM 4490 CG1 VAL B 421 10.610 9.035 107.028 1.00 44.12 C ATOM 4491 CG2 VAL B 421 11.903 9.678 109.105 1.00 44.04 C ATOM 4492 N GLN B 422 9.442 8.260 110.598 1.00 45.55 N ATOM 4493 CA GLN B 422 8.150 8.670 111.151 1.00 46.17 C ATOM 4494 C GLN B 422 8.069 10.164 111.475 1.00 46.61 C ATOM 4495 O GLN B 422 8.987 10.731 112.075 1.00 46.70 O ATOM 4496 CB GLN B 422 7.795 7.851 112.394 1.00 46.05 C ATOM 4497 CG GLN B 422 6.360 8.076 112.866 1.00 46.24 C ATOM 4498 CD GLN B 422 6.026 7.353 114.152 1.00 46.24 C ATOM 4499 OE1 GLN B 422 6.860 7.225 115.052 1.00 45.64 O ATOM 4500 NE2 GLN B 422 4.789 6.882 114.249 1.00 46.60 N ATOM 4501 N ASP B 423 6.960 10.786 111.074 1.00 47.04 N ATOM 4502 CA ASP B 423 6.656 12.161 111.462 1.00 47.59 C ATOM 4503 C ASP B 423 6.200 12.179 112.923 1.00 47.71 C ATOM 4504 O ASP B 423 5.211 11.530 113.265 1.00 47.74 O ATOM 4505 CB ASP B 423 5.575 12.756 110.549 1.00 47.68 C ATOM 4506 CG ASP B 423 5.374 14.250 110.769 1.00 48.46 C ATOM 4507 OD1 ASP B 423 5.604 15.027 109.815 1.00 48.91 O ATOM 4508 OD2 ASP B 423 4.994 14.654 111.892 1.00 49.14 O ATOM 4509 N PRO B 424 6.921 12.922 113.788 1.00 47.92 N ATOM 4510 CA PRO B 424 6.616 12.940 115.227 1.00 47.97 C ATOM 4511 C PRO B 424 5.249 13.547 115.574 1.00 47.86 C ATOM 4512 O PRO B 424 4.643 13.157 116.574 1.00 48.17 O ATOM 4513 CB PRO B 424 7.753 13.784 115.824 1.00 48.04 C ATOM 4514 CG PRO B 424 8.254 14.619 114.694 1.00 48.06 C ATOM 4515 CD PRO B 424 8.073 13.783 113.458 1.00 48.02 C ATOM 4516 N GLU B 425 4.770 14.475 114.750 1.00 47.46 N ATOM 4517 CA GLU B 425 3.507 15.159 115.007 1.00 47.16 C ATOM 4518 C GLU B 425 2.303 14.416 114.429 1.00 46.87 C ATOM 4519 O GLU B 425 1.236 14.394 115.042 1.00 46.97 O ATOM 4520 CB GLU B 425 3.556 16.598 114.482 1.00 47.12 C ATOM 4521 CG GLU B 425 4.616 17.468 115.160 1.00 47.30 C ATOM 4522 CD GLU B 425 4.710 18.877 114.584 1.00 47.67 C ATOM 4523 OE1 GLU B 425 4.028 19.176 113.576 1.00 47.76 O ATOM 4524 OE2 GLU B 425 5.476 19.692 115.148 1.00 48.52 O ATOM 4525 N THR B 426 2.480 13.805 113.260 1.00 46.52 N ATOM 4526 CA THR B 426 1.393 13.105 112.561 1.00 46.07 C ATOM 4527 C THR B 426 1.399 11.595 112.822 1.00 45.59 C ATOM 4528 O THR B 426 0.370 10.932 112.680 1.00 45.48 O ATOM 4529 CB THR B 426 1.450 13.372 111.036 1.00 46.07 C ATOM 4530 OG1 THR B 426 1.455 14.781 110.799 1.00 46.12 O ATOM 4531 CG2 THR B 426 0.252 12.760 110.318 1.00 46.59 C ATOM 4532 N LYS B 427 2.560 11.064 113.204 1.00 45.07 N ATOM 4533 CA LYS B 427 2.752 9.626 113.465 1.00 44.76 C ATOM 4534 C LYS B 427 2.705 8.766 112.197 1.00 44.21 C ATOM 4535 O LYS B 427 2.760 7.535 112.267 1.00 44.22 O ATOM 4536 CB LYS B 427 1.764 9.093 114.522 1.00 44.77 C ATOM 4537 CG LYS B 427 1.578 9.976 115.749 1.00 45.36 C ATOM 4538 CD LYS B 427 2.877 10.242 116.482 1.00 46.44 C ATOM 4539 CE LYS B 427 2.604 10.927 117.811 1.00 47.45 C ATOM 4540 NZ LYS B 427 3.866 11.357 118.470 1.00 48.00 N ATOM 4541 N ARG B 428 2.608 9.421 111.044 1.00 43.60 N ATOM 4542 CA ARG B 428 2.651 8.738 109.761 1.00 42.88 C ATOM 4543 C ARG B 428 4.050 8.182 109.526 1.00 42.34 C ATOM 4544 O ARG B 428 5.051 8.883 109.697 1.00 42.25 O ATOM 4545 CB ARG B 428 2.239 9.686 108.630 1.00 42.98 C ATOM 4546 CG ARG B 428 2.139 9.026 107.259 1.00 42.73 C ATOM 4547 CD ARG B 428 1.397 9.904 106.269 1.00 42.52 C ATOM 4548 NE ARG B 428 −0.052 9.784 106.413 1.00 43.12 N ATOM 4549 CZ ARG B 428 −0.949 10.454 105.690 1.00 42.82 C ATOM 4550 NH1 ARG B 428 −0.562 11.312 104.752 1.00 42.35 N ATOM 4551 NH2 ARG B 428 −2.244 10.263 105.907 1.00 42.41 N ATOM 4552 N ILE B 429 4.100 6.907 109.161 1.00 41.66 N ATOM 4553 CA ILE B 429 5.351 6.219 108.882 1.00 41.07 C ATOM 4554 C ILE B 429 5.529 6.139 107.369 1.00 40.60 C ATOM 4555 O ILE B 429 4.619 5.719 106.647 1.00 40.85 O ATOM 4556 CB ILE B 429 5.371 4.807 109.528 1.00 41.23 C ATOM 4557 CG1 ILE B 429 5.381 4.924 111.058 1.00 41.42 C ATOM 4558 CG2 ILE B 429 6.577 3.994 109.054 1.00 41.11 C ATOM 4559 CD1 ILE B 429 4.714 3.766 111.779 1.00 41.39 C ATOM 4560 N PHE B 430 6.698 6.560 106.897 1.00 39.78 N ATOM 4561 CA PHE B 430 6.987 6.591 105.468 1.00 38.90 C ATOM 4562 C PHE B 430 7.968 5.508 105.040 1.00 38.31 C ATOM 4563 O PHE B 430 8.939 5.212 105.736 1.00 38.19 O ATOM 4564 CB PHE B 430 7.525 7.965 105.057 1.00 39.03 C ATOM 4565 CG PHE B 430 6.533 9.079 105.224 1.00 38.86 C ATOM 4566 CD1 PHE B 430 6.572 9.899 106.347 1.00 38.81 C ATOM 4567 CD2 PHE B 430 5.552 9.304 104.263 1.00 38.79 C ATOM 4568 CE1 PHE B 430 5.648 10.930 106.509 1.00 39.24 C ATOM 4569 CE2 PHE B 430 4.626 10.334 104.410 1.00 38.59 C ATOM 4570 CZ PHE B 430 4.671 11.147 105.533 1.00 39.08 C ATOM 4571 N SER B 431 7.690 4.920 103.884 1.00 37.66 N ATOM 4572 CA SER B 431 8.615 4.017 103.226 1.00 36.94 C ATOM 4573 C SER B 431 8.901 4.574 101.834 1.00 36.48 C ATOM 4574 O SER B 431 8.025 4.575 100.965 1.00 36.50 O ATOM 4575 CB SER B 431 8.037 2.602 103.142 1.00 36.87 C ATOM 4576 OG SER B 431 8.873 1.759 102.363 1.00 36.72 O ATOM 4577 N ILE B 432 10.119 5.069 101.639 1.00 35.72 N ATOM 4578 CA ILE B 432 10.533 5.616 100.350 1.00 35.08 C ATOM 4579 C ILE B 432 11.556 4.689 99.691 1.00 34.61 C ATOM 4580 O ILE B 432 12.570 4.339 100.298 1.00 34.57 O ATOM 4581 CB ILE B 432 11.056 7.064 100.489 1.00 35.06 C ATOM 4582 CG1 ILE B 432 9.946 7.953 101.067 1.00 35.15 C ATOM 4583 CG2 ILE B 432 11.542 7.596 99.141 1.00 34.85 C ATOM 4584 CD1 ILE B 432 10.315 9.400 101.276 1.00 35.09 C ATOM 4585 N TYR B 433 11.272 4.291 98.453 1.00 33.98 N ATOM 4586 CA TYR B 433 12.040 3.247 97.779 1.00 33.66 C ATOM 4587 C TYR B 433 12.103 3.430 96.259 1.00 33.46 C ATOM 4588 O TYR B 433 11.307 4.170 95.687 1.00 33.49 O ATOM 4589 CB TYR B 433 11.480 1.862 98.143 1.00 33.40 C ATOM 4590 CG TYR B 433 9.983 1.751 98.008 1.00 33.48 C ATOM 4591 CD1 TYR B 433 9.133 2.149 99.049 1.00 32.92 C ATOM 4592 CD2 TYR B 433 9.408 1.250 96.840 1.00 33.35 C ATOM 4593 CE1 TYR B 433 7.750 2.055 98.923 1.00 32.30 C ATOM 4594 CE2 TYR B 433 8.024 1.149 96.707 1.00 33.17 C ATOM 4595 CZ TYR B 433 7.205 1.552 97.752 1.00 32.81 C ATOM 4596 OH TYR B 433 5.842 1.452 97.615 1.00 33.26 O ATOM 4597 N ASP B 434 13.057 2.746 95.625 1.00 33.34 N ATOM 4598 CA ASP B 434 13.297 2.837 94.181 1.00 33.25 C ATOM 4599 C ASP B 434 12.318 2.000 93.366 1.00 33.38 C ATOM 4600 O ASP B 434 11.755 1.024 93.863 1.00 33.52 O ATOM 4601 CB ASP B 434 14.714 2.364 93.832 1.00 33.11 C ATOM 4602 CG ASP B 434 15.801 3.189 94.495 1.00 32.44 C ATOM 4603 OD1 ASP B 434 15.482 4.133 95.247 1.00 32.26 O ATOM 4604 OD2 ASP B 434 16.985 2.887 94.252 1.00 31.33 O ATOM 4605 N MET B 435 12.140 2.390 92.106 1.00 33.36 N ATOM 4606 CA MET B 435 11.384 1.608 91.135 1.00 33.42 C ATOM 4607 C MET B 435 12.000 1.701 89.738 1.00 33.41 C ATOM 4608 O MET B 435 12.449 2.772 89.309 1.00 33.36 O ATOM 4609 CB MET B 435 9.894 1.991 91.156 1.00 33.47 C ATOM 4610 CG MET B 435 9.305 2.506 89.848 1.00 33.80 C ATOM 4611 SD MET B 435 8.874 1.282 88.608 1.00 34.05 S ATOM 4612 CE MET B 435 7.995 2.306 87.453 1.00 34.26 C ATOM 4613 N PHE B 436 12.040 0.557 89.059 1.00 33.36 N ATOM 4614 CA PHE B 436 12.452 0.459 87.664 1.00 33.44 C ATOM 4615 C PHE B 436 11.429 −0.431 86.964 1.00 33.66 C ATOM 4616 O PHE B 436 10.896 −1.350 87.586 1.00 33.75 O ATOM 4617 CB PHE B 436 13.815 −0.233 87.536 1.00 33.45 C ATOM 4618 CG PHE B 436 14.945 0.463 88.245 1.00 33.20 C ATOM 4619 CD1 PHE B 436 15.785 1.330 87.553 1.00 32.88 C ATOM 4620 CD2 PHE B 436 15.203 0.210 89.592 1.00 33.08 C ATOM 4621 CE1 PHE B 436 16.849 1.961 88.197 1.00 32.90 C ATOM 4622 CE2 PHE B 436 16.263 0.839 90.250 1.00 33.05 C ATOM 4623 CZ PHE B 436 17.086 1.717 89.552 1.00 33.19 C ATOM 4624 N PRO B 437 11.147 −0.173 85.672 1.00 33.93 N ATOM 4625 CA PRO B 437 10.384 −1.171 84.915 1.00 34.23 C ATOM 4626 C PRO B 437 11.194 −2.466 84.749 1.00 34.66 C ATOM 4627 O PRO B 437 12.294 −2.576 85.298 1.00 34.72 O ATOM 4628 CB PRO B 437 10.141 −0.486 83.560 1.00 34.19 C ATOM 4629 CG PRO B 437 11.177 0.575 83.458 1.00 33.99 C ATOM 4630 CD PRO B 437 11.485 1.011 84.857 1.00 33.99 C ATOM 4631 N GLU B 438 10.648 −3.432 84.012 1.00 35.09 N ATOM 4632 CA GLU B 438 11.306 −4.721 83.772 1.00 35.54 C ATOM 4633 C GLU B 438 12.744 −4.561 83.286 1.00 35.91 C ATOM 4634 O GLU B 438 13.003 −3.798 82.352 1.00 35.98 O ATOM 4635 CB GLU B 438 10.504 −5.532 82.749 1.00 35.53 C ATOM 4636 CG GLU B 438 11.076 −6.907 82.438 1.00 35.32 C ATOM 4637 CD GLU B 438 10.459 −7.543 81.207 1.00 35.70 C ATOM 4638 OE1 GLU B 438 9.307 −7.205 80.846 1.00 35.92 O ATOM 4639 OE2 GLU B 438 11.133 −8.393 80.596 1.00 36.39 O ATOM 4640 N GLY B 439 13.669 −5.282 83.918 1.00 36.29 N ATOM 4641 CA GLY B 439 15.078 −5.247 83.522 1.00 36.74 C ATOM 4642 C GLY B 439 16.054 −5.413 84.671 1.00 37.05 C ATOM 4643 O GLY B 439 15.713 −5.991 85.701 1.00 37.39 O ATOM 4644 N LYS B 440 17.270 −4.897 84.491 1.00 37.23 N ATOM 4645 CA LYS B 440 18.347 −5.063 85.467 1.00 37.34 C ATOM 4646 C LYS B 440 18.514 −3.858 86.396 1.00 37.39 C ATOM 4647 O LYS B 440 19.603 −3.632 86.932 1.00 37.44 O ATOM 4648 CB LYS B 440 19.673 −5.353 84.758 1.00 37.60 C ATOM 4649 CG LYS B 440 19.750 −6.708 84.066 1.00 38.31 C ATOM 4650 CD LYS B 440 21.197 −7.103 83.820 1.00 39.59 C ATOM 4651 CE LYS B 440 21.304 −8.437 83.095 1.00 40.85 C ATOM 4652 NZ LYS B 440 22.727 −8.871 82.959 1.00 41.75 N ATOM 4653 N GLY B 441 17.432 −3.103 86.584 1.00 37.36 N ATOM 4654 CA GLY B 441 17.397 −1.902 87.428 1.00 37.38 C ATOM 4655 C GLY B 441 18.701 −1.399 88.019 1.00 37.43 C ATOM 4656 O GLY B 441 19.137 −1.893 89.059 1.00 37.93 O ATOM 4657 N ILE B 442 19.292 −0.397 87.365 1.00 37.12 N ATOM 4658 CA ILE B 442 20.606 0.217 87.695 1.00 36.85 C ATOM 4659 C ILE B 442 21.714 −0.322 86.799 1.00 36.60 C ATOM 4660 O ILE B 442 22.546 0.445 86.314 1.00 36.66 O ATOM 4661 CB ILE B 442 21.033 0.176 89.216 1.00 36.85 C ATOM 4662 CG1 ILE B 442 22.172 1.158 89.495 1.00 36.91 C ATOM 4663 CG2 ILE B 442 21.530 −1.196 89.648 1.00 37.08 C ATOM 4664 CD1 ILE B 442 21.737 2.522 89.916 1.00 36.32 C ATOM 4665 N PHE B 443 21.714 −1.636 86.581 1.00 36.28 N ATOM 4666 CA PHE B 443 22.712 −2.274 85.729 1.00 35.92 C ATOM 4667 C PHE B 443 22.150 −2.517 84.332 1.00 35.65 C ATOM 4668 O PHE B 443 22.766 −3.209 83.512 1.00 35.62 O ATOM 4669 CB PHE B 443 23.218 −3.580 86.361 1.00 35.91 C ATOM 4670 CG PHE B 443 23.990 −3.380 87.641 1.00 35.91 C ATOM 4671 CD1 PHE B 443 25.203 −2.692 87.642 1.00 35.97 C ATOM 4672 CD2 PHE B 443 23.511 −3.886 88.844 1.00 35.84 C ATOM 4673 CE1 PHE B 443 25.918 −2.503 88.824 1.00 36.17 C ATOM 4674 CE2 PHE B 443 24.218 −3.702 90.034 1.00 36.48 C ATOM 4675 CZ PHE B 443 25.423 −3.008 90.024 1.00 36.25 C ATOM 4676 N GLY B 444 20.982 −1.935 84.066 1.00 35.22 N ATOM 4677 CA GLY B 444 20.315 −2.098 82.780 1.00 34.80 C ATOM 4678 C GLY B 444 19.541 −0.875 82.338 1.00 34.37 C ATOM 4679 O GLY B 444 18.461 −1.001 81.763 1.00 34.54 O ATOM 4680 N MET B 445 20.087 0.308 82.608 1.00 34.03 N ATOM 4681 CA MET B 445 19.431 1.564 82.233 1.00 33.52 C ATOM 4682 C MET B 445 19.783 1.952 80.799 1.00 33.70 C ATOM 4683 O MET B 445 20.933 1.797 80.372 1.00 33.63 O ATOM 4684 CB MET B 445 19.811 2.692 83.194 1.00 33.54 C ATOM 4685 CG MET B 445 19.372 2.472 84.640 1.00 32.48 C ATOM 4686 SD MET B 445 19.571 3.957 85.644 1.00 32.50 S ATOM 4687 CE MET B 445 18.191 4.946 85.068 1.00 30.52 C ATOM 4688 N SER B 446 18.787 2.455 80.066 1.00 33.53 N ATOM 4689 CA SER B 446 18.972 2.849 78.669 1.00 33.44 C ATOM 4690 C SER B 446 20.060 3.900 78.536 1.00 33.20 C ATOM 4691 O SER B 446 20.272 4.708 79.442 1.00 33.38 O ATOM 4692 CB SER B 446 17.663 3.358 78.058 1.00 33.62 C ATOM 4693 OG SER B 446 17.243 4.574 78.662 1.00 34.60 O ATOM 4694 N SER B 447 20.756 3.874 77.406 1.00 32.93 N ATOM 4695 CA SER B 447 21.834 4.819 77.136 1.00 32.43 C ATOM 4696 C SER B 447 21.303 6.232 76.860 1.00 31.90 C ATOM 4697 O SER B 447 21.964 7.228 77.166 1.00 31.98 O ATOM 4698 CB SER B 447 22.663 4.328 75.950 1.00 32.43 C ATOM 4699 OG SER B 447 23.616 5.300 75.560 1.00 32.99 O ATOM 4700 N GLN B 448 20.114 6.306 76.275 1.00 31.04 N ATOM 4701 CA GLN B 448 19.528 7.580 75.882 1.00 30.44 C ATOM 4702 C GLN B 448 18.304 7.935 76.734 1.00 30.21 C ATOM 4703 O GLN B 448 17.587 7.051 77.222 1.00 29.99 O ATOM 4704 CB GLN B 448 19.171 7.557 74.390 1.00 30.25 C ATOM 4705 CG GLN B 448 20.369 7.357 73.452 1.00 29.72 C ATOM 4706 CD GLN B 448 21.385 8.485 73.523 1.00 29.84 C ATOM 4707 OE1 GLN B 448 21.045 9.664 73.376 1.00 29.89 O ATOM 4708 NE2 GLN B 448 22.640 8.127 73.749 1.00 28.51 N ATOM 4709 N LYS B 449 18.073 9.230 76.916 1.00 29.98 N ATOM 4710 CA LYS B 449 16.954 9.686 77.738 1.00 29.95 C ATOM 4711 C LYS B 449 15.608 9.537 77.038 1.00 29.80 C ATOM 4712 O LYS B 449 15.438 9.939 75.890 1.00 29.38 O ATOM 4713 CB LYS B 449 17.138 11.137 78.197 1.00 29.83 C ATOM 4714 CG LYS B 449 16.032 11.607 79.130 1.00 30.25 C ATOM 4715 CD LYS B 449 16.163 13.067 79.497 1.00 31.70 C ATOM 4716 CE LYS B 449 15.244 13.416 80.672 1.00 32.38 C ATOM 4717 NZ LYS B 449 15.728 12.839 81.963 1.00 32.40 N ATOM 4718 N GLU B 450 14.672 8.929 77.754 1.00 29.99 N ATOM 4719 CA GLU B 450 13.263 8.988 77.420 1.00 30.50 C ATOM 4720 C GLU B 450 12.602 9.872 78.465 1.00 30.16 C ATOM 4721 O GLU B 450 12.758 9.638 79.658 1.00 29.76 O ATOM 4722 CB GLU B 450 12.656 7.584 77.438 1.00 30.48 C ATOM 4723 CG GLU B 450 13.186 6.663 76.336 1.00 31.38 C ATOM 4724 CD GLU B 450 12.707 5.221 76.468 1.00 31.45 C ATOM 4725 OE1 GLU B 450 11.728 4.967 77.200 1.00 33.27 O ATOM 4726 OE2 GLU B 450 13.313 4.332 75.836 1.00 32.81 O ATOM 4727 N GLU B 451 11.897 10.910 78.025 1.00 30.50 N ATOM 4728 CA GLU B 451 11.148 11.755 78.960 1.00 30.86 C ATOM 4729 C GLU B 451 10.071 10.917 79.639 1.00 30.54 C ATOM 4730 O GLU B 451 9.367 10.155 78.984 1.00 30.46 O ATOM 4731 CB GLU B 451 10.532 12.953 78.245 1.00 31.09 C ATOM 4732 CG GLU B 451 11.487 14.124 78.062 1.00 33.25 C ATOM 4733 CD GLU B 451 11.411 14.725 76.671 1.00 35.64 C ATOM 4734 OE1 GLU B 451 10.370 14.561 75.997 1.00 37.37 O ATOM 4735 OE2 GLU B 451 12.397 15.359 76.242 1.00 36.47 O ATOM 4736 N ALA B 452 9.972 11.040 80.956 1.00 30.40 N ATOM 4737 CA ALA B 452 9.052 10.217 81.733 1.00 30.30 C ATOM 4738 C ALA B 452 7.769 10.960 82.095 1.00 30.37 C ATOM 4739 O ALA B 452 6.736 10.336 82.351 1.00 30.33 O ATOM 4740 CB ALA B 452 9.744 9.691 82.984 1.00 30.05 C ATOM 4741 N TYR B 453 7.846 12.287 82.128 1.00 30.43 N ATOM 4742 CA TYR B 453 6.715 13.119 82.525 1.00 30.99 C ATOM 4743 C TYR B 453 6.550 14.320 81.614 1.00 31.27 C ATOM 4744 O TYR B 453 7.487 14.729 80.932 1.00 31.25 O ATOM 4745 CB TYR B 453 6.864 13.592 83.976 1.00 30.93 C ATOM 4746 CG TYR B 453 7.074 12.472 84.957 1.00 31.11 C ATOM 4747 CD1 TYR B 453 8.361 12.067 85.309 1.00 30.25 C ATOM 4748 CD2 TYR B 453 5.987 11.803 85.527 1.00 30.70 C ATOM 4749 CE1 TYR B 453 8.563 11.030 86.198 1.00 30.30 C ATOM 4750 CE2 TYR B 453 6.182 10.764 86.431 1.00 30.41 C ATOM 4751 CZ TYR B 453 7.474 10.386 86.758 1.00 30.49 C ATOM 4752 OH TYR B 453 7.690 9.363 87.646 1.00 31.20 O ATOM 4753 N LYS B 454 5.354 14.892 81.626 1.00 31.89 N ATOM 4754 CA LYS B 454 5.025 16.001 80.750 1.00 32.58 C ATOM 4755 C LYS B 454 3.950 16.879 81.394 1.00 33.26 C ATOM 4756 O LYS B 454 2.910 16.379 81.823 1.00 33.15 O ATOM 4757 CB LYS B 454 4.561 15.438 79.402 1.00 32.49 C ATOM 4758 CG LYS B 454 4.107 16.452 78.384 1.00 32.56 C ATOM 4759 CD LYS B 454 3.977 15.807 77.022 1.00 31.87 C ATOM 4760 CE LYS B 454 3.069 16.622 76.116 1.00 32.11 C ATOM 4761 NZ LYS B 454 3.465 18.049 76.012 1.00 31.33 N ATOM 4762 N LYS B 455 4.211 18.185 81.456 1.00 34.32 N ATOM 4763 CA LYS B 455 3.249 19.160 81.990 1.00 35.28 C ATOM 4764 C LYS B 455 2.273 19.646 80.927 1.00 35.80 C ATOM 4765 O LYS B 455 2.685 20.083 79.852 1.00 35.93 O ATOM 4766 CB LYS B 455 3.965 20.362 82.605 1.00 35.33 C ATOM 4767 CG LYS B 455 4.766 20.042 83.850 1.00 36.66 C ATOM 4768 CD LYS B 455 5.255 21.301 84.557 1.00 38.54 C ATOM 4769 CE LYS B 455 4.135 21.974 85.340 1.00 39.34 C ATOM 4770 NZ LYS B 455 4.666 22.850 86.426 1.00 40.66 N ATOM 4771 N ILE B 456 0.980 19.559 81.238 1.00 36.57 N ATOM 4772 CA ILE B 456 −0.091 20.028 80.348 1.00 37.07 C ATOM 4773 C ILE B 456 −1.124 20.807 81.170 1.00 37.88 C ATOM 4774 O ILE B 456 −1.849 20.221 81.986 1.00 37.96 O ATOM 4775 CB ILE B 456 −0.770 18.857 79.598 1.00 36.98 C ATOM 4776 CG1 ILE B 456 0.270 18.072 78.779 1.00 36.71 C ATOM 4777 CG2 ILE B 456 −1.910 19.384 78.711 1.00 36.71 C ATOM 4778 CD1 ILE B 456 −0.165 16.689 78.328 1.00 36.48 C ATOM 4779 N ASP B 457 −1.186 22.123 80.944 1.00 38.64 N ATOM 4780 CA ASP B 457 −1.851 23.062 81.867 1.00 39.37 C ATOM 4781 C ASP B 457 −1.327 22.769 83.265 1.00 39.46 C ATOM 4782 O ASP B 457 −2.039 22.916 84.257 1.00 39.56 O ATOM 4783 CB ASP B 457 −3.376 22.923 81.813 1.00 39.57 C ATOM 4784 CG ASP B 457 −3.917 22.972 80.398 1.00 40.79 C ATOM 4785 OD1 ASP B 457 −3.128 23.241 79.461 1.00 42.03 O ATOM 4786 OD2 ASP B 457 −5.133 22.740 80.219 1.00 42.20 O ATOM 4787 N GLY B 458 −0.052 22.381 83.298 1.00 39.55 N ATOM 4788 CA GLY B 458 0.573 21.615 84.374 1.00 39.46 C ATOM 4789 C GLY B 458 0.073 21.788 85.789 1.00 39.17 C ATOM 4790 O GLY B 458 0.055 22.911 86.279 1.00 39.56 O ATOM 4791 N LYS B 459 −0.352 20.714 86.466 1.00 38.81 N ATOM 4792 CA LYS B 459 −0.598 19.340 85.944 1.00 38.18 C ATOM 4793 C LYS B 459 0.530 18.567 85.236 1.00 37.41 C ATOM 4794 O LYS B 459 0.747 18.697 84.029 1.00 37.24 O ATOM 4795 CB LYS B 459 −1.910 19.260 85.149 1.00 38.40 C ATOM 4796 CG LYS B 459 −3.164 19.382 86.004 1.00 39.14 C ATOM 4797 CD LYS B 459 −4.378 19.701 85.140 1.00 40.66 C ATOM 4798 CE LYS B 459 −5.593 20.074 85.979 1.00 41.66 C ATOM 4799 NZ LYS B 459 −6.784 20.335 85.109 1.00 42.45 N ATOM 4800 N THR B 460 1.213 17.734 86.013 1.00 36.61 N ATOM 4801 CA THR B 460 2.243 16.843 85.505 1.00 35.78 C ATOM 4802 C THR B 460 1.669 15.437 85.356 1.00 35.31 C ATOM 4803 O THR B 460 1.131 14.884 86.315 1.00 35.25 O ATOM 4804 CB THR B 460 3.460 16.799 86.466 1.00 35.88 C ATOM 4805 OG1 THR B 460 3.802 18.131 86.874 1.00 35.23 O ATOM 4806 CG2 THR B 460 4.663 16.134 85.799 1.00 35.20 C ATOM 4807 N TYR B 461 1.779 14.869 84.155 1.00 34.57 N ATOM 4808 CA TYR B 461 1.353 13.491 83.898 1.00 34.01 C ATOM 4809 C TYR B 461 2.537 12.599 83.527 1.00 33.40 C ATOM 4810 O TYR B 461 3.538 13.083 82.997 1.00 33.22 O ATOM 4811 CB TYR B 461 0.335 13.432 82.754 1.00 34.36 C ATOM 4812 CG TYR B 461 −0.893 14.290 82.919 1.00 34.82 C ATOM 4813 CD1 TYR B 461 −1.894 13.947 83.829 1.00 35.48 C ATOM 4814 CD2 TYR B 461 −1.071 15.433 82.144 1.00 35.18 C ATOM 4815 CE1 TYR B 461 −3.039 14.730 83.975 1.00 35.41 C ATOM 4816 CE2 TYR B 461 −2.209 16.226 82.285 1.00 35.95 C ATOM 4817 CZ TYR B 461 −3.190 15.865 83.199 1.00 35.55 C ATOM 4818 OH TYR B 461 −4.318 16.641 83.335 1.00 35.74 O ATOM 4819 N GLN B 462 2.405 11.296 83.779 1.00 32.74 N ATOM 4820 CA GLN B 462 3.404 10.323 83.332 1.00 32.07 C ATOM 4821 C GLN B 462 3.195 9.932 81.869 1.00 31.52 C ATOM 4822 O GLN B 462 2.067 9.696 81.436 1.00 31.54 O ATOM 4823 CB GLN B 462 3.430 9.076 84.227 1.00 32.05 C ATOM 4824 CG GLN B 462 4.485 8.047 83.783 1.00 32.29 C ATOM 4825 CD GLN B 462 4.782 6.975 84.816 1.00 32.12 C ATOM 4826 OE1 GLN B 462 3.886 6.469 85.496 1.00 32.22 O ATOM 4827 NE2 GLN B 462 6.050 6.609 84.921 1.00 31.17 N ATOM 4828 N ILE B 463 4.298 9.864 81.126 1.00 30.80 N ATOM 4829 CA ILE B 463 4.284 9.542 79.702 1.00 29.98 C ATOM 4830 C ILE B 463 4.232 8.031 79.448 1.00 29.91 C ATOM 4831 O ILE B 463 4.788 7.234 80.210 1.00 29.63 O ATOM 4832 CB ILE B 463 5.517 10.159 78.973 1.00 29.94 C ATOM 4833 CG1 ILE B 463 5.475 11.694 79.047 1.00 29.77 C ATOM 4834 CG2 ILE B 463 5.604 9.676 77.521 1.00 28.94 C ATOM 4835 CD1 ILE B 463 6.773 12.383 78.647 1.00 29.46 C ATOM 4836 N LEU B 464 3.539 7.659 78.375 1.00 29.71 N ATOM 4837 CA LEU B 464 3.570 6.309 77.838 1.00 29.69 C ATOM 4838 C LEU B 464 4.056 6.368 76.404 1.00 29.90 C ATOM 4839 O LEU B 464 3.686 7.268 75.663 1.00 29.74 O ATOM 4840 CB LEU B 464 2.180 5.683 77.849 1.00 29.33 C ATOM 4841 CG LEU B 464 1.568 5.259 79.176 1.00 29.13 C ATOM 4842 CD1 LEU B 464 0.138 4.790 78.935 1.00 27.98 C ATOM 4843 CD2 LEU B 464 2.397 4.170 79.842 1.00 27.91 C ATOM 4844 N TYR B 465 4.882 5.411 76.009 1.00 30.23 N ATOM 4845 CA TYR B 465 5.259 5.291 74.607 1.00 30.74 C ATOM 4846 C TYR B 465 4.544 4.100 73.985 1.00 31.47 C ATOM 4847 O TYR B 465 4.414 3.043 74.614 1.00 31.49 O ATOM 4848 CB TYR B 465 6.777 5.181 74.455 1.00 30.18 C ATOM 4849 CG TYR B 465 7.498 6.366 75.037 1.00 29.58 C ATOM 4850 CD1 TYR B 465 7.651 7.541 74.301 1.00 29.46 C ATOM 4851 CD2 TYR B 465 7.996 6.332 76.336 1.00 28.89 C ATOM 4852 CE1 TYR B 465 8.301 8.644 74.839 1.00 28.84 C ATOM 4853 CE2 TYR B 465 8.647 7.429 76.881 1.00 28.47 C ATOM 4854 CZ TYR B 465 8.797 8.580 76.128 1.00 28.72 C ATOM 4855 OH TYR B 465 9.437 9.675 76.662 1.00 29.00 O ATOM 4856 N ARG B 466 4.056 4.294 72.763 1.00 32.45 N ATOM 4857 CA ARG B 466 3.381 3.237 72.030 1.00 33.40 C ATOM 4858 C ARG B 466 4.256 2.657 70.927 1.00 34.15 C ATOM 4859 O ARG B 466 4.791 3.395 70.095 1.00 34.29 O ATOM 4860 CB ARG B 466 2.059 3.717 71.440 1.00 33.33 C ATOM 4861 CG ARG B 466 1.193 2.557 71.021 1.00 34.23 C ATOM 4862 CD ARG B 466 0.012 2.942 70.177 1.00 35.97 C ATOM 4863 NE ARG B 466 −0.633 1.724 69.697 1.00 36.79 N ATOM 4864 CZ ARG B 466 −1.940 1.570 69.514 1.00 37.11 C ATOM 4865 NH1 ARG B 466 −2.783 2.567 69.767 1.00 37.21 N ATOM 4866 NH2 ARG B 466 −2.402 0.402 69.085 1.00 37.38 N ATOM 4867 N GLU B 467 4.381 1.330 70.936 1.00 34.93 N ATOM 4868 CA GLU B 467 5.103 0.581 69.915 1.00 35.83 C ATOM 4869 C GLU B 467 4.826 1.103 68.503 1.00 35.98 C ATOM 4870 O GLU B 467 3.688 1.067 68.036 1.00 36.09 O ATOM 4871 CB GLU B 467 4.726 −0.903 70.014 1.00 36.19 C ATOM 4872 CG GLU B 467 5.314 −1.802 68.918 1.00 38.01 C ATOM 4873 CD GLU B 467 6.831 −1.939 68.997 1.00 40.27 C ATOM 4874 OE1 GLU B 467 7.423 −1.590 70.047 1.00 41.05 O ATOM 4875 OE2 GLU B 467 7.432 −2.402 68.001 1.00 41.08 O ATOM 4876 N GLY B 468 5.873 1.591 67.840 1.00 36.19 N ATOM 4877 CA GLY B 468 5.777 2.054 66.455 1.00 36.30 C ATOM 4878 C GLY B 468 5.671 3.558 66.287 1.00 36.54 C ATOM 4879 O GLY B 468 5.831 4.078 65.180 1.00 36.46 O ATOM 4880 N GLU B 469 5.414 4.262 67.386 1.00 36.66 N ATOM 4881 CA GLU B 469 5.095 5.686 67.327 1.00 36.87 C ATOM 4882 C GLU B 469 6.022 6.539 68.173 1.00 36.60 C ATOM 4883 O GLU B 469 6.403 6.164 69.281 1.00 36.69 O ATOM 4884 CB GLU B 469 3.651 5.941 67.782 1.00 36.79 C ATOM 4885 CG GLU B 469 2.573 5.369 66.871 1.00 37.40 C ATOM 4886 CD GLU B 469 1.192 5.345 67.525 1.00 37.81 C ATOM 4887 OE1 GLU B 469 0.831 6.325 68.231 1.00 37.58 O ATOM 4888 OE2 GLU B 469 0.465 4.340 67.320 1.00 38.70 O ATOM 4889 N LYS B 470 6.373 7.696 67.633 1.00 36.48 N ATOM 4890 CA LYS B 470 6.975 8.757 68.413 1.00 36.30 C ATOM 4891 C LYS B 470 5.826 9.631 68.916 1.00 36.13 C ATOM 4892 O LYS B 470 4.807 9.782 68.238 1.00 36.19 O ATOM 4893 CB LYS B 470 7.926 9.566 67.534 1.00 36.19 C ATOM 4894 CG LYS B 470 8.718 10.625 68.260 1.00 36.27 C ATOM 4895 CD LYS B 470 9.273 11.640 67.279 1.00 36.32 C ATOM 4896 CE LYS B 470 9.785 12.870 68.006 1.00 36.29 C ATOM 4897 NZ LYS B 470 10.563 13.752 67.100 1.00 36.45 N ATOM 4898 N GLY B 471 5.975 10.198 70.104 1.00 35.90 N ATOM 4899 CA GLY B 471 4.942 11.075 70.634 1.00 35.64 C ATOM 4900 C GLY B 471 4.578 10.719 72.055 1.00 35.48 C ATOM 4901 O GLY B 471 4.726 9.566 72.466 1.00 35.30 O ATOM 4902 N ALA B 472 4.094 11.720 72.790 1.00 35.40 N ATOM 4903 CA ALA B 472 3.771 11.595 74.211 1.00 35.25 C ATOM 4904 C ALA B 472 2.863 10.412 74.543 1.00 35.06 C ATOM 4905 O ALA B 472 3.354 9.306 74.740 1.00 35.26 O ATOM 4906 CB ALA B 472 3.173 12.898 74.744 1.00 35.50 C ATOM 4907 N TYR B 473 1.550 10.636 74.570 1.00 34.61 N ATOM 4908 CA TYR B 473 0.609 9.740 75.264 1.00 34.04 C ATOM 4909 C TYR B 473 0.791 9.975 76.752 1.00 33.49 C ATOM 4910 O TYR B 473 1.896 9.818 77.281 1.00 33.38 O ATOM 4911 CB TYR B 473 0.835 8.252 74.956 1.00 34.06 C ATOM 4912 CG TYR B 473 0.309 7.770 73.626 1.00 34.41 C ATOM 4913 CD1 TYR B 473 −1.061 7.588 73.417 1.00 34.80 C ATOM 4914 CD2 TYR B 473 1.181 7.460 72.584 1.00 34.04 C ATOM 4915 CE1 TYR B 473 −1.547 7.136 72.190 1.00 34.66 C ATOM 4916 CE2 TYR B 473 0.709 7.011 71.363 1.00 34.05 C ATOM 4917 CZ TYR B 473 −0.654 6.849 71.169 1.00 34.50 C ATOM 4918 OH TYR B 473 −1.123 6.398 69.955 1.00 34.72 O ATOM 4919 N THR B 474 −0.289 10.359 77.423 1.00 32.90 N ATOM 4920 CA THR B 474 −0.226 10.685 78.847 1.00 32.46 C ATOM 4921 C THR B 474 −1.267 9.925 79.664 1.00 32.34 C ATOM 4922 O THR B 474 −2.323 9.541 79.149 1.00 32.27 O ATOM 4923 CB THR B 474 −0.366 12.208 79.095 1.00 32.36 C ATOM 4924 OG1 THR B 474 −1.451 12.732 78.317 1.00 32.38 O ATOM 4925 CG2 THR B 474 0.921 12.935 78.716 1.00 31.91 C ATOM 4926 N ILE B 475 −0.945 9.690 80.932 1.00 32.13 N ATOM 4927 CA ILE B 475 −1.875 9.071 81.865 1.00 32.23 C ATOM 4928 C ILE B 475 −2.573 10.182 82.643 1.00 32.32 C ATOM 4929 O ILE B 475 −1.971 10.785 83.531 1.00 32.34 O ATOM 4930 CB ILE B 475 −1.155 8.112 82.850 1.00 32.18 C ATOM 4931 CG1 ILE B 475 −0.360 7.047 82.086 1.00 32.06 C ATOM 4932 CG2 ILE B 475 −2.159 7.476 83.805 1.00 32.01 C ATOM 4933 CD1 ILE B 475 0.395 6.082 82.966 1.00 32.32 C ATOM 4934 N ARG B 476 −3.835 10.455 82.307 1.00 32.44 N ATOM 4935 CA ARG B 476 −4.577 11.541 82.961 1.00 32.75 C ATOM 4936 C ARG B 476 −5.585 11.033 84.000 1.00 32.95 C ATOM 4937 O ARG B 476 −5.357 9.984 84.607 1.00 32.95 O ATOM 4938 CB ARG B 476 −5.200 12.485 81.926 1.00 32.71 C ATOM 4939 CG ARG B 476 −4.186 12.954 80.884 1.00 32.71 C ATOM 4940 CD ARG B 476 −4.686 14.131 80.074 1.00 33.01 C ATOM 4941 NE ARG B 476 −3.853 14.372 78.894 1.00 31.63 N ATOM 4942 CZ ARG B 476 −4.011 15.403 78.070 1.00 31.97 C ATOM 4943 NH1 ARG B 476 −4.971 16.297 78.299 1.00 32.00 N ATOM 4944 NH2 ARG B 476 −3.211 15.548 77.020 1.00 31.07 N ATOM 4945 N GLU B 477 −6.677 11.767 84.217 1.00 33.20 N ATOM 4946 CA GLU B 477 −7.625 11.447 85.300 1.00 33.56 C ATOM 4947 C GLU B 477 −8.135 10.007 85.247 1.00 33.45 C ATOM 4948 O GLU B 477 −8.388 9.468 84.168 1.00 33.34 O ATOM 4949 CB GLU B 477 −8.800 12.440 85.337 1.00 33.50 C ATOM 4950 CG GLU B 477 −9.832 12.286 84.207 1.00 34.47 C ATOM 4951 CD GLU B 477 −9.298 12.687 82.836 1.00 35.65 C ATOM 4952 OE1 GLU B 477 −8.414 13.579 82.761 1.00 36.24 O ATOM 4953 OE2 GLU B 477 −9.767 12.108 81.831 1.00 35.33 O ATOM 4954 N ASN B 478 −8.262 9.396 86.425 1.00 33.66 N ATOM 4955 CA ASN B 478 −8.732 8.008 86.587 1.00 33.93 C ATOM 4956 C ASN B 478 −7.885 6.971 85.847 1.00 34.03 C ATOM 4957 O ASN B 478 −8.287 5.816 85.706 1.00 33.98 O ATOM 4958 CB ASN B 478 −10.211 7.874 86.190 1.00 33.86 C ATOM 4959 CG ASN B 478 −11.044 9.049 86.648 1.00 34.09 C ATOM 4960 OD1 ASN B 478 −11.688 9.716 85.838 1.00 34.86 O ATOM 4961 ND2 ASN B 478 −11.020 9.325 87.948 1.00 33.98 N ATOM 4962 N GLY B 479 −6.713 7.399 85.384 1.00 34.33 N ATOM 4963 CA GLY B 479 −5.787 6.540 84.655 1.00 34.50 C ATOM 4964 C GLY B 479 −6.074 6.444 83.170 1.00 34.69 C ATOM 4965 O GLY B 479 −5.643 5.495 82.522 1.00 34.83 O ATOM 4966 N THR B 480 −6.787 7.428 82.627 1.00 34.83 N ATOM 4967 CA THR B 480 −7.160 7.425 81.210 1.00 35.00 C ATOM 4968 C THR B 480 −5.990 7.825 80.325 1.00 35.11 C ATOM 4969 O THR B 480 −5.391 8.889 80.509 1.00 35.27 O ATOM 4970 CB THR B 480 −8.376 8.343 80.923 1.00 35.01 C ATOM 4971 OG1 THR B 480 −9.484 7.936 81.731 1.00 35.17 O ATOM 4972 CG2 THR B 480 −8.785 8.274 79.450 1.00 34.87 C ATOM 4973 N VAL B 481 −5.676 6.968 79.363 1.00 35.21 N ATOM 4974 CA VAL B 481 −4.599 7.241 78.431 1.00 35.47 C ATOM 4975 C VAL B 481 −5.064 8.246 77.390 1.00 36.09 C ATOM 4976 O VAL B 481 −6.089 8.052 76.730 1.00 36.25 O ATOM 4977 CB VAL B 481 −4.075 5.960 77.747 1.00 35.23 C ATOM 4978 CG1 VAL B 481 −2.929 6.289 76.803 1.00 34.55 C ATOM 4979 CG2 VAL B 481 −3.635 4.939 78.792 1.00 34.62 C ATOM 4980 N TYR B 482 −4.303 9.326 77.267 1.00 36.59 N ATOM 4981 CA TYR B 482 −4.553 10.342 76.265 1.00 37.10 C ATOM 4982 C TYR B 482 −3.512 10.260 75.165 1.00 37.54 C ATOM 4983 O TYR B 482 −2.351 9.952 75.415 1.00 37.60 O ATOM 4984 CB TYR B 482 −4.548 11.731 76.905 1.00 37.08 C ATOM 4985 CG TYR B 482 −5.889 12.163 77.461 1.00 36.99 C ATOM 4986 CD1 TYR B 482 −6.545 13.282 76.946 1.00 36.98 C ATOM 4987 CD2 TYR B 482 −6.504 11.457 78.496 1.00 36.85 C ATOM 4988 CE1 TYR B 482 −7.777 13.692 77.444 1.00 36.44 C ATOM 4989 CE2 TYR B 482 −7.734 11.855 79.001 1.00 37.41 C ATOM 4990 CZ TYR B 482 −8.366 12.975 78.467 1.00 37.38 C ATOM 4991 OH TYR B 482 −9.586 13.378 78.962 1.00 37.33 O ATOM 4992 N THR B 483 −3.953 10.538 73.946 1.00 38.19 N ATOM 4993 CA THR B 483 −3.114 10.537 72.758 1.00 38.71 C ATOM 4994 C THR B 483 −2.107 11.707 72.848 1.00 39.18 C ATOM 4995 O THR B 483 −2.321 12.634 73.637 1.00 39.19 O ATOM 4996 CB THR B 483 −4.034 10.626 71.500 1.00 38.72 C ATOM 4997 OG1 THR B 483 −3.432 9.973 70.377 1.00 39.19 O ATOM 4998 CG2 THR B 483 −4.348 12.051 71.144 1.00 38.78 C ATOM 4999 N PRO B 484 −0.986 11.650 72.090 1.00 39.66 N ATOM 5000 CA PRO B 484 −0.061 12.794 72.031 1.00 40.06 C ATOM 5001 C PRO B 484 −0.734 14.132 71.686 1.00 40.75 C ATOM 5002 O PRO B 484 −0.290 15.175 72.165 1.00 40.76 O ATOM 5003 CB PRO B 484 0.926 12.394 70.925 1.00 39.87 C ATOM 5004 CG PRO B 484 0.928 10.927 70.934 1.00 39.54 C ATOM 5005 CD PRO B 484 −0.480 10.511 71.296 1.00 39.65 C ATOM 5006 N ASP B 485 −1.790 14.090 70.870 1.00 41.57 N ATOM 5007 CA ASP B 485 −2.595 15.273 70.520 1.00 42.20 C ATOM 5008 C ASP B 485 −3.411 15.852 71.671 1.00 42.48 C ATOM 5009 O ASP B 485 −3.785 17.022 71.638 1.00 42.57 O ATOM 5010 CB ASP B 485 −3.560 14.937 69.381 1.00 42.35 C ATOM 5011 CG ASP B 485 −2.941 15.112 68.021 1.00 43.06 C ATOM 5012 OD1 ASP B 485 −1.752 15.487 67.950 1.00 44.40 O ATOM 5013 OD2 ASP B 485 −3.651 14.882 67.019 1.00 44.07 O ATOM 5014 N GLY B 486 −3.708 15.027 72.668 1.00 43.00 N ATOM 5015 CA GLY B 486 −4.550 15.437 73.787 1.00 43.79 C ATOM 5016 C GLY B 486 −5.975 14.921 73.680 1.00 44.40 C ATOM 5017 O GLY B 486 −6.887 15.449 74.321 1.00 44.60 O ATOM 5018 N LYS B 487 −6.168 13.890 72.866 1.00 44.94 N ATOM 5019 CA LYS B 487 −7.469 13.246 72.723 1.00 45.58 C ATOM 5020 C LYS B 487 −7.536 11.987 73.576 1.00 45.76 C ATOM 5021 O LYS B 487 −6.605 11.177 73.581 1.00 45.79 O ATOM 5022 CB LYS B 487 −7.766 12.916 71.251 1.00 45.55 C ATOM 5023 CG LYS B 487 −8.121 14.131 70.373 1.00 46.34 C ATOM 5024 CD LYS B 487 −9.510 14.703 70.706 1.00 47.61 C ATOM 5025 CE LYS B 487 −10.064 15.580 69.580 1.00 48.62 C ATOM 5026 NZ LYS B 487 −9.302 16.854 69.396 1.00 48.99 N ATOM 5027 N ALA B 488 −8.638 11.839 74.304 1.00 46.09 N ATOM 5028 CA ALA B 488 −8.883 10.652 75.115 1.00 46.50 C ATOM 5029 C ALA B 488 −9.003 9.401 74.244 1.00 46.82 C ATOM 5030 O ALA B 488 −9.837 9.347 73.338 1.00 46.85 O ATOM 5031 CB ALA B 488 −10.143 10.841 75.956 1.00 46.32 C ATOM 5032 N THR B 489 −8.151 8.409 74.504 1.00 47.40 N ATOM 5033 CA THR B 489 −8.300 7.093 73.876 1.00 47.81 C ATOM 5034 C THR B 489 −9.437 6.372 74.575 1.00 48.27 C ATOM 5035 O THR B 489 −9.983 5.402 74.042 1.00 48.37 O ATOM 5036 CB THR B 489 −7.020 6.214 73.948 1.00 47.75 C ATOM 5037 OG1 THR B 489 −6.508 6.198 75.287 1.00 47.54 O ATOM 5038 CG2 THR B 489 −5.951 6.720 72.990 1.00 47.59 C ATOM 5039 N ASP B 490 −9.767 6.866 75.776 1.00 48.73 N ATOM 5040 CA ASP B 490 −10.922 6.442 76.585 1.00 49.20 C ATOM 5041 C ASP B 490 −10.882 4.945 76.883 1.00 49.13 C ATOM 5042 O ASP B 490 −10.995 4.518 78.046 1.00 49.38 O ATOM 5043 CB ASP B 490 −12.252 6.844 75.905 1.00 49.54 C ATOM 5044 CG ASP B 490 −13.424 6.953 76.887 1.00 50.32 C ATOM 5045 OD1 ASP B 490 −13.214 6.819 78.115 1.00 51.06 O ATOM 5046 OD2 ASP B 490 −14.566 7.183 76.422 1.00 51.02 O ATOM 5047 N TYR B 491 −10.715 4.168 75.813 1.00 48.63 N ATOM 5048 CA TYR B 491 −10.610 2.723 75.871 1.00 48.08 C ATOM 5049 C TYR B 491 −9.418 2.354 76.738 1.00 47.37 C ATOM 5050 O TYR B 491 −9.563 1.624 77.724 1.00 47.37 O ATOM 5051 CB TYR B 491 −10.479 2.162 74.450 1.00 48.26 C ATOM 5052 CG TYR B 491 −11.749 2.271 73.620 1.00 48.60 C ATOM 5053 CD1 TYR B 491 −12.742 3.212 73.925 1.00 48.60 C ATOM 5054 CD2 TYR B 491 −11.949 1.444 72.513 1.00 49.51 C ATOM 5055 CE1 TYR B 491 −13.908 3.310 73.163 1.00 49.14 C ATOM 5056 CE2 TYR B 491 −13.112 1.535 71.739 1.00 49.53 C ATOM 5057 CZ TYR B 491 −14.085 2.469 72.070 1.00 49.17 C ATOM 5058 OH TYR B 491 −15.229 2.556 71.309 1.00 48.98 O ATOM 5059 N ARG B 492 −8.255 2.905 76.397 1.00 46.47 N ATOM 5060 CA ARG B 492 −7.036 2.648 77.153 1.00 45.52 C ATOM 5061 C ARG B 492 −6.982 3.389 78.485 1.00 45.00 C ATOM 5062 O ARG B 492 −7.197 4.599 78.550 1.00 44.71 O ATOM 5063 CB ARG B 492 −5.797 2.927 76.309 1.00 45.40 C ATOM 5064 CG ARG B 492 −5.265 1.692 75.632 1.00 44.99 C ATOM 5065 CD ARG B 492 −5.715 1.564 74.197 1.00 44.28 C ATOM 5066 NE ARG B 492 −5.606 0.171 73.782 1.00 45.00 N ATOM 5067 CZ ARG B 492 −5.443 −0.246 72.530 1.00 45.37 C ATOM 5068 NH1 ARG B 492 −5.345 0.620 71.531 1.00 45.41 N ATOM 5069 NH2 ARG B 492 −5.362 −1.545 72.280 1.00 45.76 N ATOM 5070 N VAL B 493 −6.703 2.627 79.538 1.00 44.56 N ATOM 5071 CA VAL B 493 −6.642 3.117 80.916 1.00 44.28 C ATOM 5072 C VAL B 493 −5.642 2.287 81.723 1.00 43.90 C ATOM 5073 O VAL B 493 −5.492 1.089 81.477 1.00 43.82 O ATOM 5074 CB VAL B 493 −8.026 3.042 81.620 1.00 44.24 C ATOM 5075 CG1 VAL B 493 −8.808 4.328 81.429 1.00 44.52 C ATOM 5076 CG2 VAL B 493 −8.829 1.844 81.124 1.00 44.55 C ATOM 5077 N VAL B 494 −4.957 2.918 82.678 1.00 43.67 N ATOM 5078 CA VAL B 494 −4.056 2.185 83.578 1.00 43.57 C ATOM 5079 C VAL B 494 −4.565 2.189 85.022 1.00 43.68 C ATOM 5080 O VAL B 494 −5.230 3.133 85.455 1.00 43.48 O ATOM 5081 CB VAL B 494 −2.558 2.655 83.498 1.00 43.53 C ATOM 5082 CG1 VAL B 494 −2.168 3.049 82.077 1.00 43.20 C ATOM 5083 CG2 VAL B 494 −2.273 3.794 84.452 1.00 43.38 C ATOM 5084 N VAL B 495 −4.254 1.122 85.753 1.00 44.03 N ATOM 5085 CA VAL B 495 −4.661 1.001 87.150 1.00 44.48 C ATOM 5086 C VAL B 495 −3.804 1.910 88.032 1.00 44.90 C ATOM 5087 O VAL B 495 −2.607 1.680 88.185 1.00 44.78 O ATOM 5088 CB VAL B 495 −4.597 −0.472 87.646 1.00 44.37 C ATOM 5089 CG1 VAL B 495 −5.027 −0.574 89.095 1.00 44.07 C ATOM 5090 CG2 VAL B 495 −5.472 −1.362 86.785 1.00 44.22 C ATOM 5091 N ASP B 496 −4.434 2.941 88.596 1.00 45.73 N ATOM 5092 CA ASP B 496 −3.768 3.910 89.481 1.00 46.53 C ATOM 5093 C ASP B 496 −4.178 3.782 90.951 1.00 46.88 C ATOM 5094 O ASP B 496 −3.304 3.632 91.809 1.00 47.07 O ATOM 5095 CB ASP B 496 −3.970 5.346 88.983 1.00 46.64 C ATOM 5096 CG ASP B 496 −3.167 5.644 87.744 1.00 47.45 C ATOM 5097 OD1 ASP B 496 −2.327 4.798 87.374 1.00 48.23 O ATOM 5098 OD2 ASP B 496 −3.366 6.722 87.143 1.00 49.08 O ATOM 5099 N PRO B 497 −5.493 3.893 91.260 1.00 47.23 N ATOM 5100 CA PRO B 497 −5.940 3.378 92.550 1.00 47.34 C ATOM 5101 C PRO B 497 −5.970 1.847 92.491 1.00 47.47 C ATOM 5102 O PRO B 497 −6.923 1.244 91.990 1.00 47.57 O ATOM 5103 CB PRO B 497 −7.350 3.969 92.706 1.00 47.34 C ATOM 5104 CG PRO B 497 −7.475 5.021 91.634 1.00 47.36 C ATOM 5105 CD PRO B 497 −6.606 4.524 90.527 1.00 47.35 C ATOM 5106 N VAL B 498 −4.905 1.241 92.998 1.00 47.54 N ATOM 5107 CA VAL B 498 −4.650 −0.187 92.852 1.00 47.57 C ATOM 5108 C VAL B 498 −5.088 −0.965 94.114 1.00 47.58 C ATOM 5109 O VAL B 498 −5.123 −0.389 95.204 1.00 47.55 O ATOM 5110 CB VAL B 498 −3.155 −0.399 92.454 1.00 47.54 C ATOM 5111 CG1 VAL B 498 −2.248 0.603 93.163 1.00 47.53 C ATOM 5112 CG2 VAL B 498 −2.700 −1.797 92.708 1.00 47.71 C ATOM 5113 N LYS B 499 −5.420 −2.257 93.964 1.00 47.62 N ATOM 5114 CA LYS B 499 −6.095 −3.032 95.038 1.00 47.52 C ATOM 5115 C LYS B 499 −5.316 −4.166 95.779 1.00 47.55 C ATOM 5116 O LYS B 499 −4.892 −3.944 96.920 1.00 47.69 O ATOM 5117 CB LYS B 499 −7.483 −3.501 94.573 1.00 47.66 C ATOM 5118 CG LYS B 499 −8.482 −2.372 94.355 1.00 47.83 C ATOM 5119 CD LYS B 499 −9.471 −2.721 93.249 1.00 48.58 C ATOM 5120 CE LYS B 499 −10.754 −1.884 93.342 1.00 49.19 C ATOM 5121 NZ LYS B 499 −11.735 −2.426 94.339 1.00 48.55 N ATOM 5122 N PRO B 500 −5.153 −5.372 95.161 1.00 47.27 N ATOM 5123 CA PRO B 500 −4.558 −6.596 95.774 1.00 47.10 C ATOM 5124 C PRO B 500 −3.345 −6.420 96.718 1.00 46.77 C ATOM 5125 O PRO B 500 −3.506 −5.952 97.844 1.00 46.86 O ATOM 5126 CB PRO B 500 −4.168 −7.433 94.553 1.00 47.07 C ATOM 5127 CG PRO B 500 −5.173 −7.076 93.525 1.00 46.97 C ATOM 5128 CD PRO B 500 −5.583 −5.642 93.773 1.00 47.31 C ATOM 5129 N ALA B 501 −2.159 −6.845 96.279 1.00 46.39 N ATOM 5130 CA ALA B 501 −0.905 −6.513 96.962 1.00 45.85 C ATOM 5131 C ALA B 501 −0.286 −5.293 96.265 1.00 45.58 C ATOM 5132 O ALA B 501 0.920 −5.022 96.370 1.00 45.52 O ATOM 5133 CB ALA B 501 0.041 −7.689 96.929 1.00 45.82 C ATOM 5134 N TYR B 502 −1.153 −4.557 95.569 1.00 44.97 N ATOM 5135 CA TYR B 502 −0.776 −3.530 94.600 1.00 44.29 C ATOM 5136 C TYR B 502 −0.061 −4.138 93.394 1.00 43.76 C ATOM 5137 O TYR B 502 0.512 −3.422 92.570 1.00 43.85 O ATOM 5138 CB TYR B 502 0.013 −2.385 95.254 1.00 44.45 C ATOM 5139 CG TYR B 502 −0.705 −1.786 96.444 1.00 44.56 C ATOM 5140 CD1 TYR B 502 −2.002 −1.287 96.319 1.00 44.68 C ATOM 5141 CD2 TYR B 502 −0.096 −1.729 97.695 1.00 44.75 C ATOM 5142 CE1 TYR B 502 −2.673 −0.751 97.403 1.00 44.48 C ATOM 5143 CE2 TYR B 502 −0.761 −1.188 98.789 1.00 44.98 C ATOM 5144 CZ TYR B 502 −2.049 −0.704 98.632 1.00 44.49 C ATOM 5145 OH TYR B 502 −2.716 −0.159 99.701 1.00 44.77 O ATOM 5146 N SER B 503 −0.144 −5.463 93.286 1.00 42.89 N ATOM 5147 CA SER B 503 0.466 −6.222 92.198 1.00 42.11 C ATOM 5148 C SER B 503 −0.153 −5.900 90.841 1.00 41.49 C ATOM 5149 O SER B 503 0.395 −6.271 89.804 1.00 41.54 O ATOM 5150 CB SER B 503 0.338 −7.724 92.467 1.00 42.22 C ATOM 5151 OG SER B 503 −1.015 −8.144 92.366 1.00 42.13 O ATOM 5152 N ASP B 504 −1.298 −5.224 90.857 1.00 40.60 N ATOM 5153 CA ASP B 504 −2.017 −4.868 89.635 1.00 39.83 C ATOM 5154 C ASP B 504 −1.732 −3.430 89.195 1.00 39.14 C ATOM 5155 O ASP B 504 −2.245 −2.976 88.174 1.00 38.99 O ATOM 5156 CB ASP B 504 −3.526 −5.079 89.820 1.00 39.83 C ATOM 5157 CG ASP B 504 −4.075 −4.319 91.009 1.00 40.22 C ATOM 5158 OD1 ASP B 504 −3.477 −4.418 92.103 1.00 39.93 O ATOM 5159 OD2 ASP B 504 −5.095 −3.613 90.856 1.00 41.05 O ATOM 5160 N LYS B 505 −0.917 −2.714 89.966 1.00 38.46 N ATOM 5161 CA LYS B 505 −0.542 −1.352 89.603 1.00 37.83 C ATOM 5162 C LYS B 505 0.139 −1.349 88.244 1.00 37.57 C ATOM 5163 O LYS B 505 1.052 −2.132 87.997 1.00 37.74 O ATOM 5164 CB LYS B 505 0.372 −0.722 90.657 1.00 37.67 C ATOM 5165 CG LYS B 505 0.691 0.737 90.377 1.00 36.47 C ATOM 5166 CD LYS B 505 1.435 1.410 91.509 1.00 34.02 C ATOM 5167 CE LYS B 505 1.928 2.783 91.073 1.00 33.33 C ATOM 5168 NZ LYS B 505 0.834 3.696 90.620 1.00 31.67 N ATOM 5169 N GLY B 506 −0.330 −0.477 87.363 1.00 37.32 N ATOM 5170 CA GLY B 506 0.247 −0.348 86.033 1.00 36.98 C ATOM 5171 C GLY B 506 −0.454 −1.153 84.957 1.00 36.68 C ATOM 5172 O GLY B 506 −0.210 −0.935 83.771 1.00 36.72 O ATOM 5173 N ASP B 507 −1.315 −2.085 85.367 1.00 36.40 N ATOM 5174 CA ASP B 507 −2.087 −2.897 84.426 1.00 36.06 C ATOM 5175 C ASP B 507 −2.811 −2.019 83.418 1.00 35.94 C ATOM 5176 O ASP B 507 −3.419 −1.006 83.782 1.00 35.70 O ATOM 5177 CB ASP B 507 −3.103 −3.772 85.163 1.00 36.09 C ATOM 5178 CG ASP B 507 −2.469 −4.961 85.849 1.00 35.83 C ATOM 5179 OD1 ASP B 507 −1.249 −5.170 85.690 1.00 36.28 O ATOM 5180 OD2 ASP B 507 −3.197 −5.691 86.553 1.00 35.77 O ATOM 5181 N LEU B 508 −2.729 −2.408 82.152 1.00 35.89 N ATOM 5182 CA LEU B 508 −3.341 −1.637 81.081 1.00 36.05 C ATOM 5183 C LEU B 508 −4.572 −2.342 80.537 1.00 35.98 C ATOM 5184 O LEU B 508 −4.528 −3.526 80.205 1.00 35.84 O ATOM 5185 CB LEU B 508 −2.349 −1.370 79.944 1.00 35.91 C ATOM 5186 CG LEU B 508 −2.902 −0.335 78.961 1.00 36.35 C ATOM 5187 CD1 LEU B 508 −2.059 0.936 78.962 1.00 36.19 C ATOM 5188 CD2 LEU B 508 −3.013 −0.916 77.563 1.00 36.59 C ATOM 5189 N TYR B 509 −5.662 −1.590 80.437 1.00 36.29 N ATOM 5190 CA TYR B 509 −6.930 −2.112 79.953 1.00 36.64 C ATOM 5191 C TYR B 509 −7.396 −1.409 78.682 1.00 37.03 C ATOM 5192 O TYR B 509 −7.085 −0.238 78.451 1.00 37.00 O ATOM 5193 CB TYR B 509 −8.008 −1.964 81.035 1.00 36.59 C ATOM 5194 CG TYR B 509 −7.907 −2.957 82.175 1.00 36.39 C ATOM 5195 CD1 TYR B 509 −6.904 −2.843 83.139 1.00 36.59 C ATOM 5196 CD2 TYR B 509 −8.825 −4.000 82.299 1.00 36.16 C ATOM 5197 CE1 TYR B 509 −6.804 −3.748 84.189 1.00 36.89 C ATOM 5198 CE2 TYR B 509 −8.739 −4.916 83.349 1.00 36.25 C ATOM 5199 CZ TYR B 509 −7.724 −4.783 84.290 1.00 36.97 C ATOM 5200 OH TYR B 509 −7.618 −5.677 85.336 1.00 36.84 O ATOM 5201 N LYS B 510 −8.137 −2.143 77.858 1.00 37.53 N ATOM 5202 CA LYS B 510 −8.964 −1.538 76.822 1.00 37.99 C ATOM 5203 C LYS B 510 −10.426 −1.799 77.205 1.00 38.18 C ATOM 5204 O LYS B 510 −11.029 −2.784 76.771 1.00 38.33 O ATOM 5205 CB LYS B 510 −8.638 −2.116 75.445 1.00 37.95 C ATOM 5206 CG LYS B 510 −8.669 −1.072 74.351 1.00 38.45 C ATOM 5207 CD LYS B 510 −9.262 −1.598 73.064 1.00 38.67 C ATOM 5208 CE LYS B 510 −9.167 −0.543 71.979 1.00 39.11 C ATOM 5209 NZ LYS B 510 −10.094 −0.802 70.847 1.00 39.27 N ATOM 5210 N GLY B 511 −10.978 −0.917 78.037 1.00 38.46 N ATOM 5211 CA GLY B 511 −12.291 −1.130 78.650 1.00 38.62 C ATOM 5212 C GLY B 511 −12.153 −2.042 79.858 1.00 38.90 C ATOM 5213 O GLY B 511 −11.447 −1.711 80.815 1.00 39.14 O ATOM 5214 N ASN B 512 −12.827 −3.190 79.821 1.00 38.83 N ATOM 5215 CA ASN B 512 −12.661 −4.215 80.859 1.00 38.75 C ATOM 5216 C ASN B 512 −11.716 −5.337 80.423 1.00 38.24 C ATOM 5217 O ASN B 512 −11.568 −6.348 81.118 1.00 38.28 O ATOM 5218 CB ASN B 512 −14.017 −4.781 81.310 1.00 38.92 C ATOM 5219 CG ASN B 512 −14.533 −4.122 82.585 1.00 39.96 C ATOM 5220 OD1 ASN B 512 −13.947 −4.269 83.664 1.00 41.02 O ATOM 5221 ND2 ASN B 512 −15.638 −3.397 82.465 1.00 40.62 N ATOM 5222 N GLN B 513 −11.078 −5.132 79.272 1.00 37.51 N ATOM 5223 CA GLN B 513 −10.123 −6.075 78.705 1.00 36.86 C ATOM 5224 C GLN B 513 −8.694 −5.773 79.183 1.00 36.53 C ATOM 5225 O GLN B 513 −8.072 −4.810 78.734 1.00 36.53 O ATOM 5226 CB GLN B 513 −10.209 −6.028 77.170 1.00 36.66 C ATOM 5227 CG GLN B 513 −9.279 −6.984 76.436 1.00 36.53 C ATOM 5228 CD GLN B 513 −9.660 −8.435 76.634 1.00 36.49 C ATOM 5229 OE1 GLN B 513 −10.741 −8.867 76.229 1.00 37.23 O ATOM 5230 NE2 GLN B 513 −8.773 −9.198 77.260 1.00 35.70 N ATOM 5231 N LEU B 514 −8.188 −6.602 80.094 1.00 36.17 N ATOM 5232 CA LEU B 514 −6.810 −6.510 80.578 1.00 35.94 C ATOM 5233 C LEU B 514 −5.837 −6.947 79.486 1.00 35.78 C ATOM 5234 O LEU B 514 −5.864 −8.098 79.059 1.00 35.97 O ATOM 5235 CB LEU B 514 −6.627 −7.381 81.830 1.00 35.98 C ATOM 5236 CG LEU B 514 −5.207 −7.757 82.282 1.00 36.05 C ATOM 5237 CD1 LEU B 514 −4.488 −6.576 82.930 1.00 36.24 C ATOM 5238 CD2 LEU B 514 −5.251 −8.940 83.234 1.00 35.94 C ATOM 5239 N LEU B 515 −4.977 −6.032 79.046 1.00 35.51 N ATOM 5240 CA LEU B 515 −4.056 −6.305 77.934 1.00 34.98 C ATOM 5241 C LEU B 515 −2.632 −6.640 78.370 1.00 34.55 C ATOM 5242 O LEU B 515 −1.983 −7.501 77.777 1.00 34.62 O ATOM 5243 CB LEU B 515 −4.028 −5.131 76.952 1.00 35.04 C ATOM 5244 CG LEU B 515 −5.260 −4.831 76.093 1.00 34.97 C ATOM 5245 CD1 LEU B 515 −5.085 −3.481 75.415 1.00 34.61 C ATOM 5246 CD2 LEU B 515 −5.527 −5.925 75.059 1.00 34.62 C ATOM 5247 N GLY B 516 −2.150 −5.952 79.397 1.00 34.10 N ATOM 5248 CA GLY B 516 −0.780 −6.125 79.859 1.00 33.42 C ATOM 5249 C GLY B 516 −0.480 −5.220 81.030 1.00 32.95 C ATOM 5250 O GLY B 516 −1.309 −5.059 81.924 1.00 33.30 O ATOM 5251 N ASN B 517 0.709 −4.626 81.020 1.00 32.38 N ATOM 5252 CA ASN B 517 1.170 −3.769 82.110 1.00 31.66 C ATOM 5253 C ASN B 517 2.218 −2.781 81.612 1.00 31.45 C ATOM 5254 O ASN B 517 3.134 −3.151 80.870 1.00 31.50 O ATOM 5255 CB ASN B 517 1.730 −4.620 83.254 1.00 31.45 C ATOM 5256 CG ASN B 517 2.042 −3.811 84.503 1.00 30.97 C ATOM 5257 OD1 ASN B 517 2.955 −2.989 84.510 1.00 29.64 O ATOM 5258 ND2 ASN B 517 1.296 −4.064 85.576 1.00 29.73 N ATOM 5259 N ILE B 518 2.084 −1.530 82.042 1.00 31.00 N ATOM 5260 CA ILE B 518 2.932 −0.437 81.563 1.00 30.58 C ATOM 5261 C ILE B 518 4.389 −0.534 82.032 1.00 30.81 C ATOM 5262 O ILE B 518 5.247 0.234 81.576 1.00 31.17 O ATOM 5263 CB ILE B 518 2.336 0.951 81.923 1.00 30.31 C ATOM 5264 CG1 ILE B 518 2.345 1.171 83.439 1.00 30.10 C ATOM 5265 CG2 ILE B 518 0.936 1.092 81.339 1.00 29.38 C ATOM 5266 CD1 ILE B 518 1.942 2.569 83.884 1.00 30.42 C ATOM 5267 N TYR B 519 4.659 −1.475 82.933 1.00 30.69 N ATOM 5268 CA TYR B 519 5.994 −1.672 83.488 1.00 30.74 C ATOM 5269 C TYR B 519 6.738 −2.835 82.815 1.00 30.92 C ATOM 5270 O TYR B 519 7.910 −3.082 83.109 1.00 30.80 O ATOM 5271 CB TYR B 519 5.930 −1.882 85.013 1.00 30.69 C ATOM 5272 CG TYR B 519 5.191 −0.803 85.797 1.00 30.58 C ATOM 5273 CD1 TYR B 519 5.364 0.552 85.505 1.00 30.66 C ATOM 5274 CD2 TYR B 519 4.342 −1.141 86.853 1.00 30.48 C ATOM 5275 CE1 TYR B 519 4.699 1.542 86.226 1.00 30.10 C ATOM 5276 CE2 TYR B 519 3.668 −0.157 87.581 1.00 30.91 C ATOM 5277 CZ TYR B 519 3.855 1.184 87.259 1.00 30.90 C ATOM 5278 OH TYR B 519 3.201 2.169 87.969 1.00 30.70 O ATOM 5279 N PHE B 520 6.057 −3.551 81.920 1.00 31.18 N ATOM 5280 CA PHE B 520 6.697 −4.623 81.155 1.00 31.43 C ATOM 5281 C PHE B 520 7.464 −4.030 79.981 1.00 31.82 C ATOM 5282 O PHE B 520 7.004 −3.071 79.358 1.00 31.76 O ATOM 5283 CB PHE B 520 5.673 −5.643 80.641 1.00 31.31 C ATOM 5284 CG PHE B 520 4.875 −6.332 81.727 1.00 31.23 C ATOM 5285 CD1 PHE B 520 5.234 −6.227 83.073 1.00 31.44 C ATOM 5286 CD2 PHE B 520 3.773 −7.110 81.393 1.00 30.66 C ATOM 5287 CE1 PHE B 520 4.493 −6.869 84.063 1.00 31.16 C ATOM 5288 CE2 PHE B 520 3.031 −7.760 82.373 1.00 30.76 C ATOM 5289 CZ PHE B 520 3.390 −7.640 83.711 1.00 31.21 C ATOM 5290 N THR B 521 8.631 −4.599 79.682 1.00 32.41 N ATOM 5291 CA THR B 521 9.486 −4.084 78.600 1.00 32.95 C ATOM 5292 C THR B 521 9.806 −5.122 77.519 1.00 33.22 C ATOM 5293 O THR B 521 10.343 −4.778 76.465 1.00 33.38 O ATOM 5294 CB THR B 521 10.816 −3.473 79.137 1.00 32.94 C ATOM 5295 OG1 THR B 521 11.597 −4.488 79.783 1.00 33.39 O ATOM 5296 CG2 THR B 521 10.548 −2.334 80.116 1.00 32.28 C ATOM 5297 N THR B 522 9.452 −6.378 77.778 1.00 33.59 N ATOM 5298 CA THR B 522 9.831 −7.511 76.928 1.00 33.90 C ATOM 5299 C THR B 522 8.606 −8.294 76.478 1.00 34.03 C ATOM 5300 O THR B 522 7.668 −8.489 77.259 1.00 34.18 O ATOM 5301 CB THR B 522 10.793 −8.452 77.699 1.00 33.89 C ATOM 5302 OG1 THR B 522 12.080 −7.832 77.799 1.00 34.50 O ATOM 5303 CG2 THR B 522 10.949 −9.807 77.021 1.00 34.51 C ATOM 5304 N ASN B 523 8.617 −8.744 75.223 1.00 34.27 N ATOM 5305 CA ASN B 523 7.541 −9.584 74.685 1.00 34.42 C ATOM 5306 C ASN B 523 6.167 −9.084 75.136 1.00 34.38 C ATOM 5307 O ASN B 523 5.356 −9.850 75.665 1.00 34.43 O ATOM 5308 CB ASN B 523 7.734 −11.051 75.109 1.00 34.57 C ATOM 5309 CG ASN B 523 9.085 −11.617 74.694 1.00 34.98 C ATOM 5310 OD1 ASN B 523 9.706 −11.152 73.734 1.00 36.33 O ATOM 5311 ND2 ASN B 523 9.545 −12.632 75.419 1.00 35.18 N ATOM 5312 N LYS B 524 5.926 −7.790 74.924 1.00 34.16 N ATOM 5313 CA LYS B 524 4.756 −7.105 75.468 1.00 33.85 C ATOM 5314 C LYS B 524 3.437 −7.592 74.884 1.00 34.02 C ATOM 5315 O LYS B 524 3.383 −8.039 73.740 1.00 33.94 O ATOM 5316 CB LYS B 524 4.888 −5.592 75.290 1.00 33.53 C ATOM 5317 CG LYS B 524 5.763 −4.921 76.339 1.00 32.35 C ATOM 5318 CD LYS B 524 5.818 −3.414 76.139 1.00 30.50 C ATOM 5319 CE LYS B 524 4.507 −2.738 76.525 1.00 29.53 C ATOM 5320 NZ LYS B 524 4.206 −2.814 77.981 1.00 28.19 N ATOM 5321 N THR B 525 2.385 −7.511 75.695 1.00 34.18 N ATOM 5322 CA THR B 525 1.036 −7.871 75.270 1.00 34.34 C ATOM 5323 C THR B 525 0.130 −6.638 75.133 1.00 34.07 C ATOM 5324 O THR B 525 −0.929 −6.708 74.518 1.00 34.00 O ATOM 5325 CB THR B 525 0.391 −8.884 76.236 1.00 34.44 C ATOM 5326 OG1 THR B 525 1.351 −9.875 76.617 1.00 34.78 O ATOM 5327 CG2 THR B 525 −0.767 −9.572 75.558 1.00 34.99 C ATOM 5328 N SER B 526 0.551 −5.521 75.724 1.00 33.94 N ATOM 5329 CA SER B 526 −0.145 −4.245 75.579 1.00 33.71 C ATOM 5330 C SER B 526 0.706 −3.301 74.719 1.00 33.18 C ATOM 5331 O SER B 526 1.911 −3.515 74.598 1.00 33.43 O ATOM 5332 CB SER B 526 −0.426 −3.637 76.956 1.00 33.82 C ATOM 5333 OG SER B 526 0.769 −3.191 77.578 1.00 34.67 O ATOM 5334 N PRO B 527 0.091 −2.267 74.105 1.00 32.71 N ATOM 5335 CA PRO B 527 0.869 −1.364 73.246 1.00 32.23 C ATOM 5336 C PRO B 527 1.687 −0.287 73.969 1.00 31.62 C ATOM 5337 O PRO B 527 2.502 0.380 73.332 1.00 31.78 O ATOM 5338 CB PRO B 527 −0.202 −0.699 72.359 1.00 32.21 C ATOM 5339 CG PRO B 527 −1.524 −1.294 72.773 1.00 32.48 C ATOM 5340 CD PRO B 527 −1.329 −1.880 74.130 1.00 32.67 C ATOM 5341 N PHE B 528 1.491 −0.123 75.275 1.00 30.93 N ATOM 5342 CA PHE B 528 2.091 1.004 76.001 1.00 30.29 C ATOM 5343 C PHE B 528 3.104 0.619 77.074 1.00 29.88 C ATOM 5344 O PHE B 528 2.906 −0.342 77.817 1.00 29.74 O ATOM 5345 CB PHE B 528 1.003 1.867 76.646 1.00 30.08 C ATOM 5346 CG PHE B 528 0.037 2.458 75.669 1.00 30.04 C ATOM 5347 CD1 PHE B 528 0.362 3.613 74.963 1.00 29.60 C ATOM 5348 CD2 PHE B 528 −1.208 1.868 75.461 1.00 29.91 C ATOM 5349 CE1 PHE B 528 −0.533 4.170 74.056 1.00 29.89 C ATOM 5350 CE2 PHE B 528 −2.111 2.417 74.557 1.00 29.62 C ATOM 5351 CZ PHE B 528 −1.773 3.574 73.852 1.00 30.24 C ATOM 5352 N ARG B 529 4.180 1.394 77.156 1.00 29.42 N ATOM 5353 CA ARG B 529 5.128 1.284 78.262 1.00 29.03 C ATOM 5354 C ARG B 529 5.547 2.670 78.745 1.00 28.74 C ATOM 5355 O ARG B 529 5.469 3.650 77.999 1.00 28.80 O ATOM 5356 CB ARG B 529 6.355 0.456 77.863 1.00 28.90 C ATOM 5357 CG ARG B 529 7.106 0.993 76.654 1.00 29.06 C ATOM 5358 CD ARG B 529 8.522 0.435 76.568 1.00 28.30 C ATOM 5359 NE ARG B 529 9.268 1.086 75.494 1.00 28.03 N ATOM 5360 CZ ARG B 529 9.974 2.212 75.626 1.00 27.68 C ATOM 5361 NH1 ARG B 529 10.053 2.835 76.799 1.00 25.14 N ATOM 5362 NH2 ARG B 529 10.606 2.718 74.573 1.00 27.73 N ATOM 5363 N ILE B 530 5.976 2.753 79.997 1.00 28.32 N ATOM 5364 CA ILE B 530 6.555 3.983 80.503 1.00 28.05 C ATOM 5365 C ILE B 530 8.009 4.068 80.078 1.00 27.85 C ATOM 5366 O ILE B 530 8.602 3.078 79.649 1.00 27.94 O ATOM 5367 CB ILE B 530 6.484 4.084 82.047 1.00 28.18 C ATOM 5368 CG1 ILE B 530 7.318 2.976 82.705 1.00 28.30 C ATOM 5369 CG2 ILE B 530 5.028 4.101 82.526 1.00 28.04 C ATOM 5370 CD1 ILE B 530 7.708 3.275 84.131 1.00 28.07 C ATOM 5371 N ALA B 531 8.572 5.262 80.214 1.00 27.61 N ATOM 5372 CA ALA B 531 9.984 5.503 79.986 1.00 27.33 C ATOM 5373 C ALA B 531 10.866 4.522 80.761 1.00 27.22 C ATOM 5374 O ALA B 531 10.607 4.241 81.936 1.00 27.10 O ATOM 5375 CB ALA B 531 10.325 6.940 80.373 1.00 27.17 C ATOM 5376 N LYS B 532 11.898 4.002 80.095 1.00 27.23 N ATOM 5377 CA LYS B 532 12.960 3.256 80.771 1.00 27.52 C ATOM 5378 C LYS B 532 13.844 4.233 81.539 1.00 27.37 C ATOM 5379 O LYS B 532 14.741 4.858 80.967 1.00 27.57 O ATOM 5380 CB LYS B 532 13.799 2.450 79.776 1.00 27.74 C ATOM 5381 CG LYS B 532 13.186 1.122 79.369 1.00 29.16 C ATOM 5382 CD LYS B 532 13.978 0.471 78.245 1.00 31.09 C ATOM 5383 CE LYS B 532 13.184 −0.656 77.592 1.00 31.74 C ATOM 5384 NZ LYS B 532 13.701 −0.934 76.222 1.00 32.70 N ATOM 5385 N ASP B 533 13.567 4.364 82.834 1.00 27.13 N ATOM 5386 CA ASP B 533 14.265 5.297 83.706 1.00 26.92 C ATOM 5387 C ASP B 533 14.228 4.762 85.139 1.00 26.88 C ATOM 5388 O ASP B 533 13.670 3.695 85.394 1.00 26.77 O ATOM 5389 CB ASP B 533 13.592 6.673 83.630 1.00 27.05 C ATOM 5390 CG ASP B 533 14.475 7.800 84.160 1.00 27.62 C ATOM 5391 OD1 ASP B 533 15.694 7.592 84.344 1.00 28.37 O ATOM 5392 OD2 ASP B 533 13.943 8.907 84.388 1.00 28.31 O ATOM 5393 N SER B 534 14.837 5.496 86.065 1.00 26.89 N ATOM 5394 CA SER B 534 14.733 5.184 87.480 1.00 26.99 C ATOM 5395 C SER B 534 13.672 6.073 88.115 1.00 27.04 C ATOM 5396 O SER B 534 13.558 7.262 87.803 1.00 26.95 O ATOM 5397 CB SER B 534 16.079 5.355 88.192 1.00 27.02 C ATOM 5398 OG SER B 534 16.207 6.634 88.797 1.00 27.52 O ATOM 5399 N TYR B 535 12.895 5.485 89.012 1.00 27.30 N ATOM 5400 CA TYR B 535 11.815 6.202 89.656 1.00 27.55 C ATOM 5401 C TYR B 535 11.922 6.074 91.166 1.00 28.22 C ATOM 5402 O TYR B 535 12.625 5.198 91.676 1.00 28.48 O ATOM 5403 CB TYR B 535 10.465 5.680 89.171 1.00 26.88 C ATOM 5404 CG TYR B 535 10.210 5.862 87.697 1.00 26.03 C ATOM 5405 CD1 TYR B 535 10.622 4.900 86.767 1.00 25.26 C ATOM 5406 CD2 TYR B 535 9.538 6.984 87.229 1.00 25.95 C ATOM 5407 CE1 TYR B 535 10.380 5.066 85.412 1.00 25.04 C ATOM 5408 CE2 TYR B 535 9.283 7.159 85.868 1.00 25.76 C ATOM 5409 CZ TYR B 535 9.704 6.199 84.968 1.00 25.57 C ATOM 5410 OH TYR B 535 9.446 6.378 83.628 1.00 25.40 O ATOM 5411 N LEU B 536 11.216 6.954 91.870 1.00 28.94 N ATOM 5412 CA LEU B 536 11.231 6.992 93.321 1.00 29.85 C ATOM 5413 C LEU B 536 9.800 6.982 93.850 1.00 30.61 C ATOM 5414 O LEU B 536 9.044 7.935 93.647 1.00 30.76 O ATOM 5415 CB LEU B 536 11.980 8.238 93.801 1.00 29.68 C ATOM 5416 CG LEU B 536 12.635 8.193 95.179 1.00 29.83 C ATOM 5417 CD1 LEU B 536 13.870 7.304 95.168 1.00 30.44 C ATOM 5418 CD2 LEU B 536 12.997 9.594 95.625 1.00 29.58 C ATOM 5419 N TRP B 537 9.441 5.896 94.526 1.00 31.50 N ATOM 5420 CA TRP B 537 8.086 5.687 95.033 1.00 32.36 C ATOM 5421 C TRP B 537 7.993 5.828 96.554 1.00 33.62 C ATOM 5422 O TRP B 537 8.997 5.701 97.265 1.00 33.77 O ATOM 5423 CB TRP B 537 7.588 4.304 94.604 1.00 31.66 C ATOM 5424 CG TRP B 537 7.194 4.221 93.159 1.00 30.85 C ATOM 5425 CD1 TRP B 537 7.418 5.159 92.190 1.00 30.22 C ATOM 5426 CD2 TRP B 537 6.535 3.131 92.514 1.00 29.72 C ATOM 5427 NE1 TRP B 537 6.924 4.728 90.990 1.00 29.84 N ATOM 5428 CE2 TRP B 537 6.372 3.485 91.158 1.00 30.25 C ATOM 5429 CE3 TRP B 537 6.055 1.890 92.950 1.00 29.73 C ATOM 5430 CZ2 TRP B 537 5.750 2.640 90.231 1.00 30.26 C ATOM 5431 CZ3 TRP B 537 5.437 1.053 92.033 1.00 29.76 C ATOM 5432 CH2 TRP B 537 5.293 1.432 90.688 1.00 30.54 C ATOM 5433 N MET B 538 6.781 6.092 97.042 1.00 35.08 N ATOM 5434 CA MET B 538 6.518 6.198 98.476 1.00 36.64 C ATOM 5435 C MET B 538 5.208 5.531 98.888 1.00 37.14 C ATOM 5436 O MET B 538 4.179 5.689 98.228 1.00 37.36 O ATOM 5437 CB MET B 538 6.495 7.662 98.919 1.00 36.53 C ATOM 5438 CG MET B 538 6.274 7.844 100.419 1.00 37.08 C ATOM 5439 SD MET B 538 5.515 9.420 100.833 1.00 38.25 S ATOM 5440 CE MET B 538 3.800 9.065 100.473 1.00 37.85 C ATOM 5441 N SER B 539 5.265 4.789 99.990 1.00 37.92 N ATOM 5442 CA SER B 539 4.074 4.265 100.641 1.00 38.71 C ATOM 5443 C SER B 539 4.060 4.702 102.101 1.00 39.46 C ATOM 5444 O SER B 539 5.120 4.926 102.701 1.00 39.28 O ATOM 5445 CB SER B 539 4.044 2.746 100.547 1.00 38.62 C ATOM 5446 OG SER B 539 4.047 2.329 99.196 1.00 38.35 O ATOM 5447 N TYR B 540 2.863 4.833 102.669 1.00 40.46 N ATOM 5448 CA TYR B 540 2.727 5.210 104.079 1.00 41.43 C ATOM 5449 C TYR B 540 1.664 4.404 104.820 1.00 42.03 C ATOM 5450 O TYR B 540 0.700 3.916 104.213 1.00 42.09 O ATOM 5451 CB TYR B 540 2.463 6.713 104.228 1.00 41.37 C ATOM 5452 CG TYR B 540 1.190 7.206 103.573 1.00 41.80 C ATOM 5453 CD1 TYR B 540 −0.030 7.194 104.261 1.00 42.26 C ATOM 5454 CD2 TYR B 540 1.205 7.704 102.271 1.00 41.46 C ATOM 5455 CE1 TYR B 540 −1.201 7.657 103.658 1.00 41.96 C ATOM 5456 CE2 TYR B 540 0.048 8.167 101.662 1.00 41.23 C ATOM 5457 CZ TYR B 540 −1.148 8.142 102.357 1.00 41.85 C ATOM 5458 OH TYR B 540 −2.290 8.601 101.747 1.00 42.44 O ATOM 5459 N SER B 541 1.865 4.262 106.131 1.00 42.62 N ATOM 5460 CA SER B 541 0.894 3.620 107.011 1.00 43.30 C ATOM 5461 C SER B 541 0.613 4.511 108.212 1.00 43.76 C ATOM 5462 O SER B 541 1.536 5.081 108.801 1.00 43.77 O ATOM 5463 CB SER B 541 1.406 2.263 107.486 1.00 43.31 C ATOM 5464 OG SER B 541 2.179 2.396 108.665 1.00 43.97 O ATOM 5465 N ASP B 542 −0.664 4.624 108.565 1.00 44.48 N ATOM 5466 CA ASP B 542 −1.095 5.412 109.719 1.00 44.93 C ATOM 5467 C ASP B 542 −1.414 4.525 110.922 1.00 45.32 C ATOM 5468 O ASP B 542 −1.502 5.008 112.050 1.00 45.64 O ATOM 5469 CB ASP B 542 −2.310 6.266 109.354 1.00 45.00 C ATOM 5470 CG ASP B 542 −1.972 7.380 108.372 1.00 45.18 C ATOM 5471 OD1 ASP B 542 −1.051 8.177 108.658 1.00 45.15 O ATOM 5472 OD2 ASP B 542 −2.639 7.468 107.318 1.00 45.10 O ATOM 5473 N ASP B 543 −1.583 3.228 110.674 1.00 45.65 N ATOM 5474 CA ASP B 543 −1.896 2.265 111.726 1.00 45.81 C ATOM 5475 C ASP B 543 −0.652 1.551 112.248 1.00 45.92 C ATOM 5476 O ASP B 543 −0.669 0.338 112.469 1.00 46.04 O ATOM 5477 CB ASP B 543 −2.933 1.245 111.236 1.00 45.94 C ATOM 5478 CG ASP B 543 −2.579 0.634 109.878 1.00 46.38 C ATOM 5479 OD1 ASP B 543 −1.377 0.501 109.544 1.00 46.82 O ATOM 5480 OD2 ASP B 543 −3.522 0.279 109.139 1.00 46.36 O ATOM 5481 N ASP B 544 0.428 2.310 112.427 1.00 46.12 N ATOM 5482 CA ASP B 544 1.678 1.808 113.016 1.00 46.28 C ATOM 5483 C ASP B 544 2.313 0.639 112.231 1.00 46.26 C ATOM 5484 O ASP B 544 3.132 −0.117 112.768 1.00 46.14 O ATOM 5485 CB ASP B 544 1.464 1.461 114.504 1.00 46.44 C ATOM 5486 CG ASP B 544 2.764 1.202 115.249 1.00 46.85 C ATOM 5487 OD1 ASP B 544 3.626 2.109 115.331 1.00 46.65 O ATOM 5488 OD2 ASP B 544 2.911 0.076 115.763 1.00 47.47 O ATOM 5489 N GLY B 545 1.930 0.502 110.959 1.00 46.26 N ATOM 5490 CA GLY B 545 2.591 −0.427 110.037 1.00 45.98 C ATOM 5491 C GLY B 545 1.849 −1.696 109.662 1.00 45.95 C ATOM 5492 O GLY B 545 2.439 −2.599 109.074 1.00 45.95 O ATOM 5493 N LYS B 546 0.558 −1.770 109.983 1.00 45.80 N ATOM 5494 CA LYS B 546 −0.235 −2.968 109.686 1.00 45.64 C ATOM 5495 C LYS B 546 −0.792 −2.989 108.255 1.00 45.23 C ATOM 5496 O LYS B 546 −0.761 −4.028 107.593 1.00 45.25 O ATOM 5497 CB LYS B 546 −1.341 −3.160 110.728 1.00 45.92 C ATOM 5498 CG LYS B 546 −0.808 −3.514 112.117 1.00 46.58 C ATOM 5499 CD LYS B 546 −1.780 −3.109 113.212 1.00 47.97 C ATOM 5500 CE LYS B 546 −1.141 −3.240 114.590 1.00 49.01 C ATOM 5501 NZ LYS B 546 −1.980 −2.623 115.657 1.00 49.63 N ATOM 5502 N THR B 547 −1.312 −1.856 107.789 1.00 44.66 N ATOM 5503 CA THR B 547 −1.633 −1.689 106.366 1.00 44.11 C ATOM 5504 C THR B 547 −0.885 −0.491 105.792 1.00 43.51 C ATOM 5505 O THR B 547 −0.496 0.418 106.530 1.00 43.51 O ATOM 5506 CB THR B 547 −3.149 −1.522 106.086 1.00 44.17 C ATOM 5507 OG1 THR B 547 −3.645 −0.356 106.758 1.00 44.21 O ATOM 5508 CG2 THR B 547 −3.930 −2.757 106.524 1.00 44.45 C ATOM 5509 N TRP B 548 −0.695 −0.502 104.474 1.00 42.60 N ATOM 5510 CA TRP B 548 0.045 0.538 103.766 1.00 41.61 C ATOM 5511 C TRP B 548 −0.754 1.025 102.566 1.00 40.94 C ATOM 5512 O TRP B 548 −1.451 0.237 101.923 1.00 40.89 O ATOM 5513 CB TRP B 548 1.391 −0.011 103.286 1.00 41.66 C ATOM 5514 CG TRP B 548 2.340 −0.333 104.398 1.00 41.64 C ATOM 5515 CD1 TRP B 548 2.408 −1.496 105.101 1.00 41.83 C ATOM 5516 CD2 TRP B 548 3.359 0.522 104.933 1.00 41.66 C ATOM 5517 NE1 TRP B 548 3.403 −1.422 106.045 1.00 42.15 N ATOM 5518 CE2 TRP B 548 4.005 −0.195 105.962 1.00 41.76 C ATOM 5519 CE3 TRP B 548 3.790 1.822 104.640 1.00 42.02 C ATOM 5520 CZ2 TRP B 548 5.057 0.345 106.708 1.00 41.69 C ATOM 5521 CZ3 TRP B 548 4.838 2.360 105.379 1.00 41.99 C ATOM 5522 CH2 TRP B 548 5.458 1.620 106.403 1.00 42.00 C ATOM 5523 N SER B 549 −0.642 2.316 102.256 1.00 39.99 N ATOM 5524 CA SER B 549 −1.311 2.886 101.084 1.00 39.18 C ATOM 5525 C SER B 549 −0.731 2.333 99.778 1.00 38.67 C ATOM 5526 O SER B 549 0.294 1.642 99.779 1.00 38.54 O ATOM 5527 CB SER B 549 −1.206 4.414 101.090 1.00 39.21 C ATOM 5528 OG SER B 549 0.113 4.834 100.786 1.00 38.87 O ATOM 5529 N ALA B 550 −1.401 2.634 98.670 1.00 37.88 N ATOM 5530 CA ALA B 550 −0.861 2.353 97.346 1.00 37.19 C ATOM 5531 C ALA B 550 0.369 3.229 97.128 1.00 36.69 C ATOM 5532 O ALA B 550 0.452 4.323 97.694 1.00 36.53 O ATOM 5533 CB ALA B 550 −1.902 2.621 96.285 1.00 37.15 C ATOM 5534 N PRO B 551 1.336 2.749 96.322 1.00 36.11 N ATOM 5535 CA PRO B 551 2.538 3.532 96.068 1.00 35.70 C ATOM 5536 C PRO B 551 2.190 4.884 95.470 1.00 35.24 C ATOM 5537 O PRO B 551 1.366 4.964 94.560 1.00 35.35 O ATOM 5538 CB PRO B 551 3.291 2.698 95.031 1.00 35.64 C ATOM 5539 CG PRO B 551 2.786 1.330 95.197 1.00 36.01 C ATOM 5540 CD PRO B 551 1.355 1.469 95.594 1.00 36.10 C ATOM 5541 N GLN B 552 2.792 5.935 96.010 1.00 34.81 N ATOM 5542 CA GLN B 552 2.703 7.262 95.424 1.00 34.41 C ATOM 5543 C GLN B 552 4.005 7.478 94.659 1.00 34.06 C ATOM 5544 O GLN B 552 5.078 7.071 95.121 1.00 33.95 O ATOM 5545 CB GLN B 552 2.530 8.340 96.505 1.00 34.46 C ATOM 5546 CG GLN B 552 1.624 7.956 97.689 1.00 34.73 C ATOM 5547 CD GLN B 552 0.135 7.981 97.358 1.00 34.94 C ATOM 5548 OE1 GLN B 552 −0.472 9.046 97.258 1.00 34.95 O ATOM 5549 NE2 GLN B 552 −0.461 6.800 97.213 1.00 34.68 N ATOM 5550 N ASP B 553 3.914 8.089 93.482 1.00 33.43 N ATOM 5551 CA ASP B 553 5.103 8.367 92.689 1.00 32.67 C ATOM 5552 C ASP B 553 5.588 9.777 92.997 1.00 32.23 C ATOM 5553 O ASP B 553 4.921 10.765 92.654 1.00 32.31 O ATOM 5554 CB ASP B 553 4.813 8.192 91.198 1.00 32.69 C ATOM 5555 CG ASP B 553 6.019 8.506 90.315 1.00 32.97 C ATOM 5556 OD1 ASP B 553 7.174 8.515 90.805 1.00 33.10 O ATOM 5557 OD2 ASP B 553 5.798 8.740 89.113 1.00 32.29 O ATOM 5558 N ILE B 554 6.742 9.867 93.654 1.00 31.24 N ATOM 5559 CA ILE B 554 7.288 11.167 94.039 1.00 30.38 C ATOM 5560 C ILE B 554 8.381 11.675 93.087 1.00 29.89 C ATOM 5561 O ILE B 554 8.835 12.815 93.206 1.00 29.62 O ATOM 5562 CB ILE B 554 7.731 11.213 95.539 1.00 30.30 C ATOM 5563 CG1 ILE B 554 8.881 10.241 95.827 1.00 30.21 C ATOM 5564 CG2 ILE B 554 6.530 10.943 96.457 1.00 30.40 C ATOM 5565 CD1 ILE B 554 9.570 10.458 97.176 1.00 29.97 C ATOM 5566 N THR B 555 8.766 10.832 92.127 1.00 29.44 N ATOM 5567 CA THR B 555 9.842 11.136 91.171 1.00 28.88 C ATOM 5568 C THR B 555 9.834 12.583 90.639 1.00 28.68 C ATOM 5569 O THR B 555 10.850 13.263 90.767 1.00 28.71 O ATOM 5570 CB THR B 555 9.884 10.119 89.991 1.00 28.94 C ATOM 5571 OG1 THR B 555 9.828 8.785 90.503 1.00 28.85 O ATOM 5572 CG2 THR B 555 11.152 10.276 89.167 1.00 28.42 C ATOM 5573 N PRO B 556 8.695 13.059 90.066 1.00 28.47 N ATOM 5574 CA PRO B 556 8.679 14.373 89.401 1.00 28.29 C ATOM 5575 C PRO B 556 8.890 15.578 90.311 1.00 28.20 C ATOM 5576 O PRO B 556 9.163 16.676 89.825 1.00 28.22 O ATOM 5577 CB PRO B 556 7.281 14.432 88.776 1.00 28.42 C ATOM 5578 CG PRO B 556 6.456 13.526 89.614 1.00 28.24 C ATOM 5579 CD PRO B 556 7.370 12.409 89.987 1.00 28.41 C ATOM 5580 N MET B 557 8.761 15.384 91.616 1.00 28.23 N ATOM 5581 CA MET B 557 8.965 16.482 92.556 1.00 28.15 C ATOM 5582 C MET B 557 10.453 16.718 92.815 1.00 27.52 C ATOM 5583 O MET B 557 10.858 17.830 93.161 1.00 27.07 O ATOM 5584 CB MET B 557 8.231 16.208 93.869 1.00 28.24 C ATOM 5585 CG MET B 557 6.729 16.481 93.832 1.00 28.62 C ATOM 5586 SD MET B 557 5.909 16.064 95.396 1.00 29.66 S ATOM 5587 CE MET B 557 5.738 14.294 95.238 1.00 28.01 C ATOM 5588 N VAL B 558 11.258 15.673 92.614 1.00 27.07 N ATOM 5589 CA VAL B 558 12.662 15.668 93.038 1.00 26.68 C ATOM 5590 C VAL B 558 13.706 15.391 91.940 1.00 26.51 C ATOM 5591 O VAL B 558 14.840 15.872 92.036 1.00 26.47 O ATOM 5592 CB VAL B 558 12.890 14.673 94.217 1.00 26.64 C ATOM 5593 CG1 VAL B 558 12.206 15.173 95.479 1.00 26.38 C ATOM 5594 CG2 VAL B 558 12.405 13.265 93.855 1.00 25.98 C ATOM 5595 N LYS B 559 13.333 14.609 90.925 1.00 26.17 N ATOM 5596 CA LYS B 559 14.262 14.191 89.864 1.00 25.91 C ATOM 5597 C LYS B 559 14.408 15.243 88.764 1.00 25.71 C ATOM 5598 O LYS B 559 13.491 15.450 87.972 1.00 25.69 O ATOM 5599 CB LYS B 559 13.813 12.857 89.250 1.00 26.06 C ATOM 5600 CG LYS B 559 14.867 12.153 88.406 1.00 25.24 C ATOM 5601 CD LYS B 559 14.416 10.760 88.044 1.00 25.30 C ATOM 5602 CE LYS B 559 15.511 9.971 87.350 1.00 26.33 C ATOM 5603 NZ LYS B 559 15.695 10.363 85.920 1.00 26.55 N ATOM 5604 N ALA B 560 15.571 15.890 88.720 1.00 25.47 N ATOM 5605 CA ALA B 560 15.885 16.895 87.695 1.00 25.16 C ATOM 5606 C ALA B 560 16.142 16.232 86.338 1.00 24.97 C ATOM 5607 O ALA B 560 16.381 15.024 86.266 1.00 24.80 O ATOM 5608 CB ALA B 560 17.090 17.741 88.122 1.00 24.79 C ATOM 5609 N ASP B 561 16.101 17.029 85.272 1.00 24.81 N ATOM 5610 CA ASP B 561 16.168 16.505 83.905 1.00 24.95 C ATOM 5611 C ASP B 561 17.455 15.750 83.572 1.00 24.74 C ATOM 5612 O ASP B 561 17.416 14.750 82.850 1.00 24.57 O ATOM 5613 CB ASP B 561 15.919 17.620 82.889 1.00 25.00 C ATOM 5614 CG ASP B 561 14.494 18.114 82.919 1.00 26.57 C ATOM 5615 OD1 ASP B 561 13.606 17.343 83.353 1.00 29.21 O ATOM 5616 OD2 ASP B 561 14.252 19.272 82.520 1.00 28.90 O ATOM 5617 N TRP B 562 18.575 16.230 84.113 1.00 24.45 N ATOM 5618 CA TRP B 562 19.895 15.664 83.838 1.00 24.21 C ATOM 5619 C TRP B 562 20.142 14.347 84.569 1.00 24.31 C ATOM 5620 O TRP B 562 21.037 13.590 84.199 1.00 24.61 O ATOM 5621 CB TRP B 562 20.998 16.673 84.187 1.00 24.00 C ATOM 5622 CG TRP B 562 21.061 17.071 85.653 1.00 23.80 C ATOM 5623 CD1 TRP B 562 20.578 18.223 86.207 1.00 23.71 C ATOM 5624 CD2 TRP B 562 21.635 16.317 86.737 1.00 23.72 C ATOM 5625 NE1 TRP B 562 20.821 18.241 87.563 1.00 24.04 N ATOM 5626 CE2 TRP B 562 21.470 17.086 87.914 1.00 24.19 C ATOM 5627 CE3 TRP B 562 22.281 15.074 86.827 1.00 23.67 C ATOM 5628 CZ2 TRP B 562 21.922 16.650 89.165 1.00 23.74 C ATOM 5629 CZ3 TRP B 562 22.727 14.640 88.073 1.00 23.73 C ATOM 5630 CH2 TRP B 562 22.548 15.430 89.224 1.00 23.92 C ATOM 5631 N MET B 563 19.361 14.082 85.613 1.00 24.22 N ATOM 5632 CA MET B 563 19.567 12.896 86.440 1.00 24.09 C ATOM 5633 C MET B 563 19.247 11.612 85.684 1.00 24.61 C ATOM 5634 O MET B 563 18.193 11.495 85.045 1.00 24.33 O ATOM 5635 CB MET B 563 18.750 12.973 87.734 1.00 23.82 C ATOM 5636 CG MET B 563 19.249 13.997 88.739 1.00 23.06 C ATOM 5637 SD MET B 563 18.109 14.161 90.125 1.00 23.74 S ATOM 5638 CE MET B 563 18.794 15.557 91.017 1.00 23.20 C ATOM 5639 N LYS B 564 20.181 10.662 85.754 1.00 25.02 N ATOM 5640 CA LYS B 564 19.978 9.321 85.222 1.00 25.42 C ATOM 5641 C LYS B 564 19.348 8.465 86.323 1.00 25.72 C ATOM 5642 O LYS B 564 18.154 8.166 86.275 1.00 25.84 O ATOM 5643 CB LYS B 564 21.311 8.737 84.744 1.00 25.48 C ATOM 5644 CG LYS B 564 21.201 7.532 83.815 1.00 25.63 C ATOM 5645 CD LYS B 564 22.565 7.161 83.231 1.00 25.47 C ATOM 5646 CE LYS B 564 22.575 5.754 82.640 1.00 25.59 C ATOM 5647 NZ LYS B 564 21.694 5.626 81.451 1.00 26.26 N ATOM 5648 N PHE B 565 20.147 8.102 87.323 1.00 25.97 N ATOM 5649 CA PHE B 565 19.662 7.372 88.488 1.00 25.98 C ATOM 5650 C PHE B 565 19.298 8.312 89.627 1.00 26.45 C ATOM 5651 O PHE B 565 20.030 9.253 89.931 1.00 26.44 O ATOM 5652 CB PHE B 565 20.722 6.368 88.955 1.00 25.91 C ATOM 5653 CG PHE B 565 20.435 5.729 90.294 1.00 25.22 C ATOM 5654 CD1 PHE B 565 19.303 4.932 90.484 1.00 24.74 C ATOM 5655 CD2 PHE B 565 21.319 5.899 91.355 1.00 24.38 C ATOM 5656 CE1 PHE B 565 19.052 4.329 91.725 1.00 24.75 C ATOM 5657 CE2 PHE B 565 21.077 5.304 92.592 1.00 24.26 C ATOM 5658 CZ PHE B 565 19.943 4.514 92.776 1.00 24.74 C ATOM 5659 N LEU B 566 18.147 8.055 90.241 1.00 27.14 N ATOM 5660 CA LEU B 566 17.809 8.649 91.529 1.00 27.66 C ATOM 5661 C LEU B 566 17.271 7.565 92.452 1.00 28.17 C ATOM 5662 O LEU B 566 16.233 6.950 92.177 1.00 28.23 O ATOM 5663 CB LEU B 566 16.792 9.772 91.374 1.00 27.63 C ATOM 5664 CG LEU B 566 16.215 10.342 92.669 1.00 27.70 C ATOM 5665 CD1 LEU B 566 17.205 11.273 93.360 1.00 27.78 C ATOM 5666 CD2 LEU B 566 14.918 11.061 92.365 1.00 28.28 C ATOM 5667 N GLY B 567 17.990 7.334 93.544 1.00 28.66 N ATOM 5668 CA GLY B 567 17.614 6.304 94.505 1.00 29.25 C ATOM 5669 C GLY B 567 18.082 6.608 95.911 1.00 29.57 C ATOM 5670 O GLY B 567 18.999 7.402 96.116 1.00 29.64 O ATOM 5671 N VAL B 568 17.454 5.950 96.876 1.00 29.97 N ATOM 5672 CA VAL B 568 17.665 6.243 98.291 1.00 30.48 C ATOM 5673 C VAL B 568 18.974 5.681 98.837 1.00 30.86 C ATOM 5674 O VAL B 568 19.497 4.687 98.329 1.00 30.82 O ATOM 5675 CB VAL B 568 16.493 5.717 99.159 1.00 30.46 C ATOM 5676 CG1 VAL B 568 15.225 6.531 98.917 1.00 30.37 C ATOM 5677 CG2 VAL B 568 16.238 4.235 98.901 1.00 30.44 C ATOM 5678 N GLY B 569 19.508 6.344 99.857 1.00 31.30 N ATOM 5679 CA GLY B 569 20.507 5.729 100.723 1.00 32.08 C ATOM 5680 C GLY B 569 19.716 4.937 101.750 1.00 32.52 C ATOM 5681 O GLY B 569 19.173 5.527 102.682 1.00 32.58 O ATOM 5682 N PRO B 570 19.627 3.602 101.578 1.00 32.83 N ATOM 5683 CA PRO B 570 18.696 2.799 102.373 1.00 33.33 C ATOM 5684 C PRO B 570 19.030 2.728 103.866 1.00 33.89 C ATOM 5685 O PRO B 570 20.175 2.963 104.271 1.00 34.15 O ATOM 5686 CB PRO B 570 18.798 1.413 101.741 1.00 33.23 C ATOM 5687 CG PRO B 570 20.145 1.377 101.129 1.00 33.35 C ATOM 5688 CD PRO B 570 20.405 2.768 100.645 1.00 32.95 C ATOM 5689 N GLY B 571 18.017 2.409 104.665 1.00 34.24 N ATOM 5690 CA GLY B 571 18.140 2.380 106.110 1.00 34.46 C ATOM 5691 C GLY B 571 17.005 3.167 106.721 1.00 34.66 C ATOM 5692 O GLY B 571 15.837 2.938 106.396 1.00 34.67 O ATOM 5693 N THR B 572 17.349 4.110 107.591 1.00 34.85 N ATOM 5694 CA THR B 572 16.346 4.870 108.330 1.00 35.16 C ATOM 5695 C THR B 572 16.631 6.369 108.291 1.00 35.38 C ATOM 5696 O THR B 572 17.777 6.801 108.461 1.00 35.30 O ATOM 5697 CB THR B 572 16.231 4.363 109.791 1.00 35.21 C ATOM 5698 OG1 THR B 572 15.976 2.950 109.780 1.00 34.70 O ATOM 5699 CG2 THR B 572 15.106 5.077 110.543 1.00 35.28 C ATOM 5700 N GLY B 573 15.579 7.150 108.054 1.00 35.58 N ATOM 5701 CA GLY B 573 15.686 8.604 107.998 1.00 36.05 C ATOM 5702 C GLY B 573 15.529 9.269 109.352 1.00 36.35 C ATOM 5703 O GLY B 573 15.309 8.602 110.367 1.00 36.43 O ATOM 5704 N ILE B 574 15.647 10.592 109.364 1.00 36.61 N ATOM 5705 CA ILE B 574 15.446 11.366 110.580 1.00 36.94 C ATOM 5706 C ILE B 574 14.426 12.472 110.368 1.00 37.18 C ATOM 5707 O ILE B 574 14.027 12.760 109.241 1.00 37.34 O ATOM 5708 CB ILE B 574 16.763 11.993 111.105 1.00 36.90 C ATOM 5709 CG1 ILE B 574 17.313 13.025 110.111 1.00 37.13 C ATOM 5710 CG2 ILE B 574 17.780 10.909 111.422 1.00 36.49 C ATOM 5711 CD1 ILE B 574 18.160 14.118 110.751 1.00 37.46 C ATOM 5712 N VAL B 575 14.002 13.076 111.472 1.00 37.49 N ATOM 5713 CA VAL B 575 13.242 14.314 111.435 1.00 37.61 C ATOM 5714 C VAL B 575 14.035 15.339 112.232 1.00 37.86 C ATOM 5715 O VAL B 575 14.579 15.024 113.289 1.00 37.86 O ATOM 5716 CB VAL B 575 11.823 14.147 112.020 1.00 37.43 C ATOM 5717 CG1 VAL B 575 11.047 15.451 111.935 1.00 37.47 C ATOM 5718 CG2 VAL B 575 11.076 13.050 111.291 1.00 37.45 C ATOM 5719 N LEU B 576 14.116 16.555 111.706 1.00 38.30 N ATOM 5720 CA LEU B 576 14.815 17.644 112.380 1.00 38.85 C ATOM 5721 C LEU B 576 14.064 18.095 113.636 1.00 39.16 C ATOM 5722 O LEU B 576 12.860 18.374 113.590 1.00 39.28 O ATOM 5723 CB LEU B 576 15.035 18.817 111.413 1.00 38.80 C ATOM 5724 CG LEU B 576 16.334 18.856 110.591 1.00 38.97 C ATOM 5725 CD1 LEU B 576 16.779 17.485 110.064 1.00 38.94 C ATOM 5726 CD2 LEU B 576 16.219 19.866 109.451 1.00 38.87 C ATOM 5727 N ARG B 577 14.791 18.156 114.751 1.00 39.47 N ATOM 5728 CA ARG B 577 14.214 18.464 116.067 1.00 39.57 C ATOM 5729 C ARG B 577 14.683 19.818 116.616 1.00 39.85 C ATOM 5730 O ARG B 577 14.152 20.300 117.613 1.00 40.02 O ATOM 5731 CB ARG B 577 14.559 17.347 117.062 1.00 39.61 C ATOM 5732 CG ARG B 577 16.057 17.160 117.235 1.00 39.34 C ATOM 5733 CD ARG B 577 16.445 16.001 118.139 1.00 38.90 C ATOM 5734 NE ARG B 577 17.856 16.123 118.501 1.00 37.10 N ATOM 5735 CZ ARG B 577 18.877 15.747 117.732 1.00 36.86 C ATOM 5736 NH1 ARG B 577 18.673 15.194 116.543 1.00 36.37 N ATOM 5737 NH2 ARG B 577 20.117 15.928 118.158 1.00 37.21 N ATOM 5738 N ASN B 578 15.684 20.410 115.965 1.00 40.06 N ATOM 5739 CA ASN B 578 16.254 21.694 116.374 1.00 40.32 C ATOM 5740 C ASN B 578 16.091 22.747 115.289 1.00 40.25 C ATOM 5741 O ASN B 578 15.466 22.500 114.260 1.00 40.30 O ATOM 5742 CB ASN B 578 17.752 21.553 116.676 1.00 40.38 C ATOM 5743 CG ASN B 578 18.060 20.411 117.614 1.00 41.54 C ATOM 5744 OD1 ASN B 578 18.634 19.400 117.204 1.00 42.10 O ATOM 5745 ND2 ASN B 578 17.684 20.561 118.885 1.00 42.88 N ATOM 5746 N GLY B 579 16.657 23.925 115.544 1.00 40.26 N ATOM 5747 CA GLY B 579 16.872 24.945 114.526 1.00 40.10 C ATOM 5748 C GLY B 579 15.645 25.481 113.817 1.00 40.14 C ATOM 5749 O GLY B 579 14.511 25.128 114.164 1.00 40.10 O ATOM 5750 N PRO B 580 15.867 26.339 112.803 1.00 40.07 N ATOM 5751 CA PRO B 580 14.798 27.013 112.069 1.00 39.90 C ATOM 5752 C PRO B 580 14.064 26.101 111.080 1.00 39.80 C ATOM 5753 O PRO B 580 13.168 26.567 110.364 1.00 39.73 O ATOM 5754 CB PRO B 580 15.534 28.135 111.317 1.00 39.81 C ATOM 5755 CG PRO B 580 16.966 28.099 111.802 1.00 40.10 C ATOM 5756 CD PRO B 580 17.195 26.719 112.293 1.00 40.07 C ATOM 5757 N HIS B 581 14.442 24.822 111.043 1.00 39.64 N ATOM 5758 CA HIS B 581 13.836 23.853 110.125 1.00 39.49 C ATOM 5759 C HIS B 581 13.340 22.605 110.847 1.00 39.40 C ATOM 5760 O HIS B 581 13.239 21.530 110.246 1.00 39.44 O ATOM 5761 CB HIS B 581 14.815 23.476 109.004 1.00 39.61 C ATOM 5762 CG HIS B 581 15.251 24.639 108.170 1.00 39.48 C ATOM 5763 ND1 HIS B 581 14.450 25.196 107.197 1.00 39.59 N ATOM 5764 CD2 HIS B 581 16.398 25.359 108.174 1.00 39.57 C ATOM 5765 CE1 HIS B 581 15.084 26.210 106.635 1.00 39.71 C ATOM 5766 NE2 HIS B 581 16.270 26.328 107.207 1.00 40.00 N ATOM 5767 N LYS B 582 13.027 22.755 112.134 1.00 39.25 N ATOM 5768 CA LYS B 582 12.456 21.669 112.927 1.00 39.08 C ATOM 5769 C LYS B 582 11.193 21.146 112.248 1.00 38.75 C ATOM 5770 O LYS B 582 10.345 21.929 111.818 1.00 38.80 O ATOM 5771 CB LYS B 582 12.142 22.146 114.348 1.00 39.21 C ATOM 5772 CG LYS B 582 11.474 21.093 115.223 1.00 39.76 C ATOM 5773 CD LYS B 582 11.073 21.658 116.569 1.00 40.91 C ATOM 5774 CE LYS B 582 10.199 20.677 117.345 1.00 40.90 C ATOM 5775 NZ LYS B 582 9.701 21.292 118.608 1.00 41.14 N ATOM 5776 N GLY B 583 11.089 19.825 112.141 1.00 38.32 N ATOM 5777 CA GLY B 583 9.947 19.190 111.491 1.00 38.00 C ATOM 5778 C GLY B 583 10.252 18.663 110.099 1.00 37.82 C ATOM 5779 O GLY B 583 9.493 17.853 109.559 1.00 37.66 O ATOM 5780 N ARG B 584 11.362 19.123 109.520 1.00 37.58 N ATOM 5781 CA ARG B 584 11.797 18.685 108.194 1.00 37.34 C ATOM 5782 C ARG B 584 12.222 17.218 108.219 1.00 37.32 C ATOM 5783 O ARG B 584 13.001 16.802 109.080 1.00 37.48 O ATOM 5784 CB ARG B 584 12.946 19.562 107.690 1.00 37.55 C ATOM 5785 CG ARG B 584 13.509 19.178 106.320 1.00 37.16 C ATOM 5786 CD ARG B 584 14.540 20.196 105.853 1.00 37.20 C ATOM 5787 NE ARG B 584 13.916 21.424 105.358 1.00 36.40 N ATOM 5788 CZ ARG B 584 14.566 22.557 105.099 1.00 35.56 C ATOM 5789 NH1 ARG B 584 15.877 22.646 105.292 1.00 34.74 N ATOM 5790 NH2 ARG B 584 13.897 23.609 104.645 1.00 34.98 N ATOM 5791 N ILE B 585 11.698 16.448 107.269 1.00 36.94 N ATOM 5792 CA ILE B 585 11.998 15.027 107.154 1.00 36.55 C ATOM 5793 C ILE B 585 13.111 14.814 106.132 1.00 36.36 C ATOM 5794 O ILE B 585 12.997 15.242 104.986 1.00 36.43 O ATOM 5795 CB ILE B 585 10.746 14.220 106.755 1.00 36.45 C ATOM 5796 CG1 ILE B 585 9.583 14.554 107.694 1.00 36.12 C ATOM 5797 CG2 ILE B 585 11.052 12.731 106.769 1.00 36.33 C ATOM 5798 CD1 ILE B 585 8.226 14.168 107.161 1.00 36.54 C ATOM 5799 N LEU B 586 14.180 14.149 106.560 1.00 36.05 N ATOM 5800 CA LEU B 586 15.366 13.948 105.728 1.00 35.62 C ATOM 5801 C LEU B 586 15.514 12.509 105.230 1.00 35.08 C ATOM 5802 O LEU B 586 15.666 11.579 106.024 1.00 34.98 O ATOM 5803 CB LEU B 586 16.630 14.392 106.482 1.00 35.81 C ATOM 5804 CG LEU B 586 17.278 15.743 106.137 1.00 36.16 C ATOM 5805 CD1 LEU B 586 16.293 16.904 106.136 1.00 36.88 C ATOM 5806 CD2 LEU B 586 18.431 16.039 107.073 1.00 35.80 C ATOM 5807 N ILE B 587 15.459 12.351 103.907 1.00 34.31 N ATOM 5808 CA ILE B 587 15.686 11.074 103.237 1.00 33.55 C ATOM 5809 C ILE B 587 16.980 11.154 102.422 1.00 33.01 C ATOM 5810 O ILE B 587 17.060 11.920 101.458 1.00 33.09 O ATOM 5811 CB ILE B 587 14.506 10.698 102.294 1.00 33.56 C ATOM 5812 CG1 ILE B 587 13.152 10.863 103.002 1.00 33.79 C ATOM 5813 CG2 ILE B 587 14.684 9.289 101.715 1.00 33.31 C ATOM 5814 CD1 ILE B 587 12.878 9.860 104.120 1.00 33.62 C ATOM 5815 N PRO B 588 18.001 10.373 102.814 1.00 32.39 N ATOM 5816 CA PRO B 588 19.259 10.302 102.071 1.00 31.76 C ATOM 5817 C PRO B 588 19.070 9.642 100.712 1.00 31.10 C ATOM 5818 O PRO B 588 18.436 8.589 100.619 1.00 31.22 O ATOM 5819 CB PRO B 588 20.137 9.413 102.956 1.00 31.68 C ATOM 5820 CG PRO B 588 19.491 9.452 104.306 1.00 31.90 C ATOM 5821 CD PRO B 588 18.038 9.515 104.009 1.00 32.36 C ATOM 5822 N VAL B 589 19.609 10.268 99.670 1.00 30.21 N ATOM 5823 CA VAL B 589 19.554 9.719 98.313 1.00 29.28 C ATOM 5824 C VAL B 589 20.881 9.947 97.587 1.00 28.85 C ATOM 5825 O VAL B 589 21.765 10.654 98.085 1.00 28.63 O ATOM 5826 CB VAL B 589 18.374 10.311 97.456 1.00 29.24 C ATOM 5827 CG1 VAL B 589 17.014 9.908 98.009 1.00 29.04 C ATOM 5828 CG2 VAL B 589 18.472 11.830 97.323 1.00 29.02 C ATOM 5829 N TYR B 590 21.014 9.340 96.413 1.00 28.16 N ATOM 5830 CA TYR B 590 22.165 9.592 95.559 1.00 27.74 C ATOM 5831 C TYR B 590 21.829 9.522 94.070 1.00 27.39 C ATOM 5832 O TYR B 590 20.942 8.770 93.653 1.00 27.57 O ATOM 5833 CB TYR B 590 23.359 8.705 95.937 1.00 27.74 C ATOM 5834 CG TYR B 590 23.156 7.221 95.777 1.00 27.61 C ATOM 5835 CD1 TYR B 590 22.175 6.543 96.500 1.00 27.56 C ATOM 5836 CD2 TYR B 590 23.974 6.484 94.927 1.00 27.72 C ATOM 5837 CE1 TYR B 590 21.998 5.167 96.356 1.00 27.93 C ATOM 5838 CE2 TYR B 590 23.811 5.108 94.783 1.00 28.39 C ATOM 5839 CZ TYR B 590 22.820 4.457 95.500 1.00 27.82 C ATOM 5840 OH TYR B 590 22.655 3.098 95.354 1.00 28.09 O ATOM 5841 N THR B 591 22.538 10.324 93.282 1.00 26.90 N ATOM 5842 CA THR B 591 22.256 10.461 91.857 1.00 26.48 C ATOM 5843 C THR B 591 23.436 10.024 91.007 1.00 26.34 C ATOM 5844 O THR B 591 24.580 10.046 91.467 1.00 26.34 O ATOM 5845 CB THR B 591 21.961 11.923 91.491 1.00 26.30 C ATOM 5846 OG1 THR B 591 23.095 12.728 91.836 1.00 26.15 O ATOM 5847 CG2 THR B 591 20.720 12.433 92.225 1.00 26.33 C ATOM 5848 N THR B 592 23.146 9.626 89.770 1.00 26.01 N ATOM 5849 CA THR B 592 24.163 9.540 88.730 1.00 26.13 C ATOM 5850 C THR B 592 23.840 10.551 87.621 1.00 26.25 C ATOM 5851 O THR B 592 22.731 11.100 87.579 1.00 26.39 O ATOM 5852 CB THR B 592 24.276 8.127 88.105 1.00 26.07 C ATOM 5853 OG1 THR B 592 23.108 7.849 87.327 1.00 25.95 O ATOM 5854 CG2 THR B 592 24.467 7.047 89.173 1.00 26.68 C ATOM 5855 N ASN B 593 24.813 10.797 86.743 1.00 26.05 N ATOM 5856 CA ASN B 593 24.621 11.643 85.575 1.00 25.99 C ATOM 5857 C ASN B 593 24.926 10.865 84.309 1.00 26.11 C ATOM 5858 O ASN B 593 25.407 9.738 84.376 1.00 26.40 O ATOM 5859 CB ASN B 593 25.457 12.934 85.664 1.00 26.00 C ATOM 5860 CG ASN B 593 26.961 12.702 85.496 1.00 25.94 C ATOM 5861 OD1 ASN B 593 27.408 11.822 84.752 1.00 25.81 O ATOM 5862 ND2 ASN B 593 27.749 13.521 86.177 1.00 26.36 N ATOM 5863 N ASN B 594 24.651 11.471 83.162 1.00 26.38 N ATOM 5864 CA ASN B 594 24.794 10.800 81.871 1.00 26.51 C ATOM 5865 C ASN B 594 26.202 10.864 81.306 1.00 26.61 C ATOM 5866 O ASN B 594 26.502 10.207 80.305 1.00 26.57 O ATOM 5867 CB ASN B 594 23.792 11.370 80.865 1.00 26.64 C ATOM 5868 CG ASN B 594 22.373 10.941 81.161 1.00 26.66 C ATOM 5869 OD1 ASN B 594 22.070 9.746 81.177 1.00 28.18 O ATOM 5870 ND2 ASN B 594 21.492 11.908 81.388 1.00 25.44 N ATOM 5871 N VAL B 595 27.061 11.656 81.948 1.00 26.75 N ATOM 5872 CA VAL B 595 28.459 11.766 81.536 1.00 26.87 C ATOM 5873 C VAL B 595 29.241 10.506 81.914 1.00 26.95 C ATOM 5874 O VAL B 595 29.977 9.973 81.085 1.00 27.11 O ATOM 5875 CB VAL B 595 29.153 13.036 82.115 1.00 26.95 C ATOM 5876 CG1 VAL B 595 30.642 13.078 81.743 1.00 26.70 C ATOM 5877 CG2 VAL B 595 28.452 14.298 81.632 1.00 26.93 C ATOM 5878 N SER B 596 29.077 10.032 83.151 1.00 26.91 N ATOM 5879 CA SER B 596 29.875 8.895 83.647 1.00 26.87 C ATOM 5880 C SER B 596 29.094 7.830 84.424 1.00 26.76 C ATOM 5881 O SER B 596 29.647 6.769 84.747 1.00 26.56 O ATOM 5882 CB SER B 596 31.067 9.386 84.477 1.00 26.82 C ATOM 5883 OG SER B 596 30.652 10.117 85.619 1.00 27.17 O ATOM 5884 N HIS B 597 27.823 8.116 84.714 1.00 26.59 N ATOM 5885 CA HIS B 597 26.920 7.166 85.378 1.00 26.64 C ATOM 5886 C HIS B 597 27.582 6.478 86.591 1.00 26.73 C ATOM 5887 O HIS B 597 28.069 7.162 87.490 1.00 26.88 O ATOM 5888 CB HIS B 597 26.340 6.173 84.354 1.00 26.55 C ATOM 5889 CG HIS B 597 25.268 5.280 84.899 1.00 26.12 C ATOM 5890 ND1 HIS B 597 24.331 5.709 85.816 1.00 26.34 N ATOM 5891 CD2 HIS B 597 24.977 3.983 84.643 1.00 26.46 C ATOM 5892 CE1 HIS B 597 23.519 4.709 86.114 1.00 26.28 C ATOM 5893 NE2 HIS B 597 23.886 3.651 85.413 1.00 26.62 N ATOM 5894 N LEU B 598 27.633 5.150 86.605 1.00 26.92 N ATOM 5895 CA LEU B 598 28.153 4.419 87.764 1.00 27.20 C ATOM 5896 C LEU B 598 29.659 4.562 87.977 1.00 27.30 C ATOM 5897 O LEU B 598 30.142 4.434 89.100 1.00 27.52 O ATOM 5898 CB LEU B 598 27.760 2.936 87.702 1.00 27.08 C ATOM 5899 CG LEU B 598 26.335 2.580 88.153 1.00 27.37 C ATOM 5900 CD1 LEU B 598 26.156 1.068 88.243 1.00 26.86 C ATOM 5901 CD2 LEU B 598 25.973 3.235 89.495 1.00 27.20 C ATOM 5902 N ASN B 599 30.382 4.853 86.900 1.00 27.41 N ATOM 5903 CA ASN B 599 31.841 4.907 86.916 1.00 27.26 C ATOM 5904 C ASN B 599 32.458 6.139 87.572 1.00 27.24 C ATOM 5905 O ASN B 599 33.580 6.057 88.072 1.00 27.48 O ATOM 5906 CB ASN B 599 32.387 4.755 85.493 1.00 27.40 C ATOM 5907 CG ASN B 599 31.937 3.461 84.834 1.00 27.46 C ATOM 5908 OD1 ASN B 599 31.794 2.429 85.492 1.00 28.03 O ATOM 5909 ND2 ASN B 599 31.716 3.511 83.530 1.00 27.49 N ATOM 5910 N GLY B 600 31.748 7.271 87.567 1.00 26.96 N ATOM 5911 CA GLY B 600 32.295 8.508 88.137 1.00 26.57 C ATOM 5912 C GLY B 600 31.358 9.616 88.609 1.00 26.50 C ATOM 5913 O GLY B 600 31.808 10.744 88.832 1.00 26.38 O ATOM 5914 N SER B 601 30.071 9.314 88.792 1.00 26.34 N ATOM 5915 CA SER B 601 29.101 10.375 89.106 1.00 26.22 C ATOM 5916 C SER B 601 28.231 10.209 90.363 1.00 25.97 C ATOM 5917 O SER B 601 27.520 11.139 90.741 1.00 25.72 O ATOM 5918 CB SER B 601 28.205 10.652 87.896 1.00 26.05 C ATOM 5919 OG SER B 601 27.281 9.604 87.718 1.00 25.94 O ATOM 5920 N GLN B 602 28.275 9.042 90.997 1.00 25.94 N ATOM 5921 CA GLN B 602 27.492 8.810 92.215 1.00 26.00 C ATOM 5922 C GLN B 602 27.681 9.944 93.229 1.00 25.96 C ATOM 5923 O GLN B 602 28.796 10.187 93.710 1.00 25.50 O ATOM 5924 CB GLN B 602 27.811 7.443 92.816 1.00 25.87 C ATOM 5925 CG GLN B 602 27.200 6.294 92.034 1.00 26.76 C ATOM 5926 CD GLN B 602 27.801 4.941 92.378 1.00 28.33 C ATOM 5927 OE1 GLN B 602 27.131 4.082 92.944 1.00 28.47 O ATOM 5928 NE2 GLN B 602 29.069 4.743 92.023 1.00 28.92 N ATOM 5929 N SER B 603 26.581 10.651 93.507 1.00 25.99 N ATOM 5930 CA SER B 603 26.598 11.867 94.317 1.00 26.03 C ATOM 5931 C SER B 603 25.506 11.870 95.395 1.00 26.61 C ATOM 5932 O SER B 603 24.310 11.798 95.089 1.00 26.42 O ATOM 5933 CB SER B 603 26.452 13.095 93.424 1.00 25.94 C ATOM 5934 OG SER B 603 27.558 13.236 92.550 1.00 25.81 O ATOM 5935 N SER B 604 25.936 11.963 96.654 1.00 26.84 N ATOM 5936 CA SER B 604 25.036 11.939 97.799 1.00 27.26 C ATOM 5937 C SER B 604 24.345 13.280 97.980 1.00 27.43 C ATOM 5938 O SER B 604 24.959 14.336 97.822 1.00 27.52 O ATOM 5939 CB SER B 604 25.798 11.597 99.082 1.00 27.31 C ATOM 5940 OG SER B 604 26.301 10.270 99.062 1.00 27.63 O ATOM 5941 N ARG B 605 23.057 13.216 98.297 1.00 27.67 N ATOM 5942 CA ARG B 605 22.272 14.380 98.709 1.00 27.87 C ATOM 5943 C ARG B 605 21.086 13.879 99.536 1.00 27.96 C ATOM 5944 O ARG B 605 20.961 12.683 99.791 1.00 27.61 O ATOM 5945 CB ARG B 605 21.805 15.205 97.497 1.00 27.65 C ATOM 5946 CG ARG B 605 20.676 14.572 96.681 1.00 28.18 C ATOM 5947 CD ARG B 605 20.193 15.484 95.559 1.00 27.65 C ATOM 5948 NE ARG B 605 21.177 15.604 94.486 1.00 27.34 N ATOM 5949 CZ ARG B 605 21.264 16.639 93.651 1.00 27.57 C ATOM 5950 NH1 ARG B 605 20.425 17.666 93.747 1.00 26.48 N ATOM 5951 NH2 ARG B 605 22.196 16.643 92.708 1.00 27.95 N ATOM 5952 N ILE B 606 20.229 14.792 99.971 1.00 28.51 N ATOM 5953 CA ILE B 606 18.978 14.388 100.601 1.00 29.16 C ATOM 5954 C ILE B 606 17.782 14.954 99.853 1.00 29.61 C ATOM 5955 O ILE B 606 17.911 15.918 99.093 1.00 29.76 O ATOM 5956 CB ILE B 606 18.902 14.769 102.112 1.00 29.06 C ATOM 5957 CG1 ILE B 606 19.113 16.273 102.334 1.00 29.14 C ATOM 5958 CG2 ILE B 606 19.900 13.949 102.928 1.00 29.31 C ATOM 5959 CD1 ILE B 606 17.850 17.113 102.226 1.00 28.96 C ATOM 5960 N ILE B 607 16.630 14.323 100.052 1.00 30.18 N ATOM 5961 CA ILE B 607 15.349 14.933 99.723 1.00 30.64 C ATOM 5962 C ILE B 607 14.627 15.161 101.043 1.00 30.96 C ATOM 5963 O ILE B 607 14.878 14.451 102.020 1.00 30.90 O ATOM 5964 CB ILE B 607 14.514 14.080 98.737 1.00 30.78 C ATOM 5965 CG1 ILE B 607 14.104 12.739 99.371 1.00 30.89 C ATOM 5966 CG2 ILE B 607 15.294 13.884 97.419 1.00 30.69 C ATOM 5967 CD1 ILE B 607 13.109 11.912 98.558 1.00 30.47 C ATOM 5968 N TYR B 608 13.752 16.159 101.080 1.00 31.45 N ATOM 5969 CA TYR B 608 13.149 16.587 102.335 1.00 31.80 C ATOM 5970 C TYR B 608 11.688 16.996 102.201 1.00 32.17 C ATOM 5971 O TYR B 608 11.207 17.271 101.101 1.00 32.22 O ATOM 5972 CB TYR B 608 13.964 17.728 102.949 1.00 31.85 C ATOM 5973 CG TYR B 608 14.000 18.994 102.123 1.00 31.75 C ATOM 5974 CD1 TYR B 608 14.921 19.145 101.090 1.00 32.30 C ATOM 5975 CD2 TYR B 608 13.122 20.047 102.383 1.00 31.80 C ATOM 5976 CE1 TYR B 608 14.964 20.305 100.324 1.00 32.00 C ATOM 5977 CE2 TYR B 608 13.154 21.217 101.624 1.00 31.68 C ATOM 5978 CZ TYR B 608 14.084 21.338 100.599 1.00 32.12 C ATOM 5979 OH TYR B 608 14.138 22.484 99.838 1.00 32.33 O ATOM 5980 N SER B 609 10.990 17.023 103.333 1.00 32.54 N ATOM 5981 CA SER B 609 9.601 17.467 103.380 1.00 32.95 C ATOM 5982 C SER B 609 9.363 18.375 104.574 1.00 33.27 C ATOM 5983 O SER B 609 9.672 18.016 105.716 1.00 33.38 O ATOM 5984 CB SER B 609 8.642 16.282 103.432 1.00 32.84 C ATOM 5985 OG SER B 609 7.305 16.743 103.396 1.00 33.16 O ATOM 5986 N ASP B 610 8.820 19.555 104.291 1.00 33.58 N ATOM 5987 CA ASP B 610 8.516 20.548 105.309 1.00 33.99 C ATOM 5988 C ASP B 610 7.012 20.598 105.614 1.00 34.18 C ATOM 5989 O ASP B 610 6.564 21.409 106.426 1.00 34.26 O ATOM 5990 CB ASP B 610 9.019 21.926 104.862 1.00 34.02 C ATOM 5991 CG ASP B 610 10.538 22.052 104.918 1.00 34.47 C ATOM 5992 OD1 ASP B 610 11.165 21.470 105.826 1.00 34.96 O ATOM 5993 OD2 ASP B 610 11.108 22.760 104.060 1.00 34.58 O ATOM 5994 N ASP B 611 6.235 19.735 104.964 1.00 34.49 N ATOM 5995 CA ASP B 611 4.785 19.700 105.187 1.00 34.78 C ATOM 5996 C ASP B 611 4.257 18.304 105.546 1.00 35.01 C ATOM 5997 O ASP B 611 3.155 17.915 105.147 1.00 35.21 O ATOM 5998 CB ASP B 611 4.018 20.329 104.008 1.00 34.62 C ATOM 5999 CG ASP B 611 4.292 19.644 102.671 1.00 34.72 C ATOM 6000 OD1 ASP B 611 5.063 18.656 102.615 1.00 34.47 O ATOM 6001 OD2 ASP B 611 3.714 20.106 101.661 1.00 34.96 O ATOM 6002 N HIS B 612 5.055 17.570 106.320 1.00 35.40 N ATOM 6003 CA HIS B 612 4.690 16.247 106.841 1.00 35.62 C ATOM 6004 C HIS B 612 4.533 15.207 105.736 1.00 35.75 C ATOM 6005 O HIS B 612 3.606 14.393 105.760 1.00 35.77 O ATOM 6006 CB HIS B 612 3.432 16.323 107.731 1.00 35.71 C ATOM 6007 CG HIS B 612 3.451 17.462 108.705 1.00 35.47 C ATOM 6008 ND1 HIS B 612 4.215 17.448 109.853 1.00 35.22 N ATOM 6009 CD2 HIS B 612 2.821 18.662 108.687 1.00 35.10 C ATOM 6010 CE1 HIS B 612 4.047 18.586 110.504 1.00 34.91 C ATOM 6011 NE2 HIS B 612 3.206 19.339 109.818 1.00 34.78 N ATOM 6012 N GLY B 613 5.445 15.249 104.765 1.00 35.94 N ATOM 6013 CA GLY B 613 5.538 14.207 103.739 1.00 36.05 C ATOM 6014 C GLY B 613 4.575 14.338 102.574 1.00 36.36 C ATOM 6015 O GLY B 613 4.450 13.416 101.767 1.00 36.22 O ATOM 6016 N LYS B 614 3.890 15.475 102.481 1.00 36.65 N ATOM 6017 CA LYS B 614 3.011 15.724 101.346 1.00 36.99 C ATOM 6018 C LYS B 614 3.830 16.029 100.092 1.00 36.76 C ATOM 6019 O LYS B 614 3.769 15.287 99.119 1.00 36.98 O ATOM 6020 CB LYS B 614 2.022 16.857 101.638 1.00 37.22 C ATOM 6021 CG LYS B 614 0.857 16.887 100.663 1.00 37.79 C ATOM 6022 CD LYS B 614 0.258 18.271 100.555 1.00 39.70 C ATOM 6023 CE LYS B 614 −0.439 18.449 99.213 1.00 40.53 C ATOM 6024 NZ LYS B 614 −1.048 19.803 99.106 1.00 41.84 N ATOM 6025 N THR B 615 4.589 17.121 100.124 1.00 36.69 N ATOM 6026 CA THR B 615 5.458 17.499 99.008 1.00 36.38 C ATOM 6027 C THR B 615 6.920 17.272 99.377 1.00 36.22 C ATOM 6028 O THR B 615 7.290 17.322 100.552 1.00 36.21 O ATOM 6029 CB THR B 615 5.265 18.975 98.580 1.00 36.40 C ATOM 6030 OG1 THR B 615 5.552 19.844 99.682 1.00 36.52 O ATOM 6031 CG2 THR B 615 3.843 19.231 98.090 1.00 36.66 C ATOM 6032 N TRP B 616 7.740 17.014 98.363 1.00 35.93 N ATOM 6033 CA TRP B 616 9.162 16.776 98.553 1.00 35.60 C ATOM 6034 C TRP B 616 9.999 17.710 97.682 1.00 35.51 C ATOM 6035 O TRP B 616 9.561 18.135 96.607 1.00 35.66 O ATOM 6036 CB TRP B 616 9.504 15.313 98.251 1.00 35.56 C ATOM 6037 CG TRP B 616 8.823 14.360 99.178 1.00 35.55 C ATOM 6038 CD1 TRP B 616 7.589 13.799 99.013 1.00 35.50 C ATOM 6039 CD2 TRP B 616 9.325 13.869 100.427 1.00 35.18 C ATOM 6040 NE1 TRP B 616 7.294 12.984 100.079 1.00 35.41 N ATOM 6041 CE2 TRP B 616 8.340 13.007 100.962 1.00 35.03 C ATOM 6042 CE3 TRP B 616 10.511 14.068 101.143 1.00 35.17 C ATOM 6043 CZ2 TRP B 616 8.503 12.346 102.183 1.00 34.96 C ATOM 6044 CZ3 TRP B 616 10.672 13.412 102.364 1.00 35.76 C ATOM 6045 CH2 TRP B 616 9.671 12.560 102.869 1.00 35.47 C ATOM 6046 N HIS B 617 11.198 18.031 98.159 1.00 35.00 N ATOM 6047 CA HIS B 617 12.153 18.823 97.396 1.00 34.53 C ATOM 6048 C HIS B 617 13.523 18.172 97.464 1.00 34.18 C ATOM 6049 O HIS B 617 13.822 17.431 98.403 1.00 34.32 O ATOM 6050 CB HIS B 617 12.221 20.253 97.927 1.00 34.45 C ATOM 6051 CG HIS B 617 10.891 20.932 97.996 1.00 34.78 C ATOM 6052 ND1 HIS B 617 10.339 21.601 96.923 1.00 34.89 N ATOM 6053 CD2 HIS B 617 9.995 21.035 99.006 1.00 34.79 C ATOM 6054 CE1 HIS B 617 9.164 22.093 97.273 1.00 35.00 C ATOM 6055 NE2 HIS B 617 8.932 21.763 98.532 1.00 35.11 N ATOM 6056 N ALA B 618 14.343 18.438 96.455 1.00 33.67 N ATOM 6057 CA ALA B 618 15.707 17.928 96.415 1.00 33.24 C ATOM 6058 C ALA B 618 16.671 18.941 97.008 1.00 32.94 C ATOM 6059 O ALA B 618 16.612 20.134 96.693 1.00 32.87 O ATOM 6060 CB ALA B 618 16.108 17.593 94.983 1.00 33.16 C ATOM 6061 N GLY B 619 17.555 18.466 97.876 1.00 32.58 N ATOM 6062 CA GLY B 619 18.667 19.285 98.339 1.00 32.27 C ATOM 6063 C GLY B 619 19.746 19.300 97.275 1.00 31.96 C ATOM 6064 O GLY B 619 19.709 18.499 96.347 1.00 31.84 O ATOM 6065 N GLU B 620 20.694 20.226 97.393 1.00 31.89 N ATOM 6066 CA GLU B 620 21.864 20.240 96.520 1.00 31.82 C ATOM 6067 C GLU B 620 22.785 19.098 96.913 1.00 31.67 C ATOM 6068 O GLU B 620 22.819 18.694 98.073 1.00 31.28 O ATOM 6069 CB GLU B 620 22.629 21.550 96.652 1.00 31.88 C ATOM 6070 CG GLU B 620 21.887 22.776 96.183 1.00 32.68 C ATOM 6071 CD GLU B 620 22.734 24.032 96.277 1.00 33.77 C ATOM 6072 OE1 GLU B 620 23.886 23.955 96.764 1.00 34.06 O ATOM 6073 OE2 GLU B 620 22.246 25.104 95.861 1.00 35.05 O ATOM 6074 N ALA B 621 23.531 18.583 95.941 1.00 31.77 N ATOM 6075 CA ALA B 621 24.474 17.501 96.194 1.00 31.76 C ATOM 6076 C ALA B 621 25.675 17.989 97.000 1.00 31.80 C ATOM 6077 O ALA B 621 26.023 19.170 96.966 1.00 31.73 O ATOM 6078 CB ALA B 621 24.924 16.870 94.884 1.00 31.51 C ATOM 6079 N VAL B 622 26.301 17.069 97.728 1.00 32.03 N ATOM 6080 CA VAL B 622 27.564 17.351 98.408 1.00 32.21 C ATOM 6081 C VAL B 622 28.626 17.706 97.368 1.00 32.39 C ATOM 6082 O VAL B 622 29.471 18.580 97.603 1.00 32.51 O ATOM 6083 CB VAL B 622 28.029 16.148 99.266 1.00 32.18 C ATOM 6084 CG1 VAL B 622 29.389 16.420 99.885 1.00 31.98 C ATOM 6085 CG2 VAL B 622 27.001 15.831 100.348 1.00 31.89 C ATOM 6086 N ASN B 623 28.554 17.034 96.217 1.00 32.49 N ATOM 6087 CA ASN B 623 29.464 17.268 95.093 1.00 32.84 C ATOM 6088 C ASN B 623 29.177 18.504 94.229 1.00 33.29 C ATOM 6089 O ASN B 623 29.893 18.747 93.259 1.00 33.57 O ATOM 6090 CB ASN B 623 29.531 16.026 94.196 1.00 32.75 C ATOM 6091 CG ASN B 623 30.187 14.846 94.879 1.00 31.84 C ATOM 6092 OD1 ASN B 623 31.038 15.010 95.747 1.00 31.67 O ATOM 6093 ND2 ASN B 623 29.790 13.649 94.489 1.00 30.91 N ATOM 6094 N ASP B 624 28.146 19.279 94.562 1.00 33.92 N ATOM 6095 CA ASP B 624 27.834 20.490 93.793 1.00 34.82 C ATOM 6096 C ASP B 624 28.737 21.660 94.169 1.00 35.79 C ATOM 6097 O ASP B 624 28.775 22.079 95.332 1.00 35.82 O ATOM 6098 CB ASP B 624 26.360 20.881 93.933 1.00 34.49 C ATOM 6099 CG ASP B 624 25.428 19.947 93.172 1.00 34.02 C ATOM 6100 OD1 ASP B 624 25.914 19.122 92.368 1.00 33.13 O ATOM 6101 OD2 ASP B 624 24.200 20.038 93.387 1.00 33.13 O ATOM 6102 N ASN B 625 29.450 22.181 93.166 1.00 36.95 N ATOM 6103 CA ASN B 625 30.427 23.269 93.328 1.00 38.11 C ATOM 6104 C ASN B 625 31.481 22.944 94.391 1.00 38.93 C ATOM 6105 O ASN B 625 31.882 23.799 95.187 1.00 39.20 O ATOM 6106 CB ASN B 625 29.734 24.617 93.593 1.00 38.18 C ATOM 6107 CG ASN B 625 30.598 25.813 93.195 1.00 38.89 C ATOM 6108 OD1 ASN B 625 31.236 25.818 92.135 1.00 39.62 O ATOM 6109 ND2 ASN B 625 30.620 26.831 94.048 1.00 38.89 N ATOM 6110 N ARG B 626 31.920 21.688 94.384 1.00 39.83 N ATOM 6111 CA ARG B 626 32.857 21.182 95.368 1.00 40.63 C ATOM 6112 C ARG B 626 34.268 21.167 94.793 1.00 41.43 C ATOM 6113 O ARG B 626 34.540 20.498 93.793 1.00 41.60 O ATOM 6114 CB ARG B 626 32.446 19.776 95.805 1.00 40.47 C ATOM 6115 CG ARG B 626 33.412 19.116 96.767 1.00 40.21 C ATOM 6116 CD ARG B 626 33.204 17.621 96.769 1.00 40.05 C ATOM 6117 NE ARG B 626 34.335 16.903 97.349 1.00 39.64 N ATOM 6118 CZ ARG B 626 34.540 15.596 97.216 1.00 39.83 C ATOM 6119 NH1 ARG B 626 33.693 14.850 96.518 1.00 39.11 N ATOM 6120 NH2 ARG B 626 35.597 15.030 97.787 1.00 40.07 N ATOM 6121 N GLN B 627 35.156 21.918 95.435 1.00 42.26 N ATOM 6122 CA GLN B 627 36.563 21.948 95.062 1.00 42.98 C ATOM 6123 C GLN B 627 37.224 20.604 95.379 1.00 43.14 C ATOM 6124 O GLN B 627 37.285 20.187 96.537 1.00 43.14 O ATOM 6125 CB GLN B 627 37.269 23.096 95.790 1.00 43.22 C ATOM 6126 CG GLN B 627 38.794 23.020 95.799 1.00 44.30 C ATOM 6127 CD GLN B 627 39.440 23.667 94.590 1.00 45.55 C ATOM 6128 OE1 GLN B 627 38.766 24.256 93.738 1.00 46.26 O ATOM 6129 NE2 GLN B 627 40.763 23.570 94.517 1.00 46.09 N ATOM 6130 N VAL B 628 37.686 19.923 94.333 1.00 43.46 N ATOM 6131 CA VAL B 628 38.444 18.680 94.475 1.00 43.59 C ATOM 6132 C VAL B 628 39.519 18.583 93.383 1.00 43.77 C ATOM 6133 O VAL B 628 39.233 18.759 92.196 1.00 43.71 O ATOM 6134 CB VAL B 628 37.521 17.421 94.517 1.00 43.63 C ATOM 6135 CG1 VAL B 628 36.739 17.247 93.215 1.00 43.52 C ATOM 6136 CG2 VAL B 628 38.321 16.160 94.861 1.00 43.72 C ATOM 6137 N ASP B 629 40.759 18.337 93.810 1.00 44.06 N ATOM 6138 CA ASP B 629 41.914 18.215 92.911 1.00 44.20 C ATOM 6139 C ASP B 629 42.149 19.495 92.099 1.00 44.03 C ATOM 6140 O ASP B 629 42.469 19.447 90.906 1.00 43.89 O ATOM 6141 CB ASP B 629 41.768 16.982 91.999 1.00 44.39 C ATOM 6142 CG ASP B 629 41.463 15.702 92.779 1.00 45.17 C ATOM 6143 OD1 ASP B 629 41.671 15.674 94.018 1.00 45.33 O ATOM 6144 OD2 ASP B 629 41.013 14.721 92.147 1.00 45.84 O ATOM 6145 N GLY B 630 41.980 20.639 92.762 1.00 43.84 N ATOM 6146 CA GLY B 630 42.144 21.947 92.120 1.00 43.49 C ATOM 6147 C GLY B 630 40.889 22.476 91.445 1.00 43.15 C ATOM 6148 O GLY B 630 40.653 23.689 91.419 1.00 43.21 O ATOM 6149 N GLN B 631 40.080 21.560 90.910 1.00 42.72 N ATOM 6150 CA GLN B 631 38.909 21.908 90.101 1.00 42.08 C ATOM 6151 C GLN B 631 37.596 21.871 90.888 1.00 41.27 C ATOM 6152 O GLN B 631 37.486 21.179 91.902 1.00 41.26 O ATOM 6153 CB GLN B 631 38.813 20.980 88.880 1.00 42.45 C ATOM 6154 CG GLN B 631 40.034 20.985 87.945 1.00 43.30 C ATOM 6155 CD GLN B 631 40.276 22.334 87.281 1.00 44.74 C ATOM 6156 OE1 GLN B 631 40.769 23.272 87.914 1.00 45.85 O ATOM 6157 NE2 GLN B 631 39.942 22.433 85.995 1.00 44.75 N ATOM 6158 N LYS B 632 36.610 22.628 90.413 1.00 40.17 N ATOM 6159 CA LYS B 632 35.259 22.591 90.962 1.00 39.08 C ATOM 6160 C LYS B 632 34.406 21.650 90.117 1.00 38.05 C ATOM 6161 O LYS B 632 34.397 21.758 88.892 1.00 38.10 O ATOM 6162 CB LYS B 632 34.641 23.991 90.980 1.00 39.12 C ATOM 6163 CG LYS B 632 35.232 24.931 92.025 1.00 39.55 C ATOM 6164 CD LYS B 632 34.617 26.323 91.930 1.00 39.56 C ATOM 6165 CE LYS B 632 35.340 27.329 92.827 1.00 40.31 C ATOM 6166 NZ LYS B 632 35.048 27.142 94.281 1.00 39.87 N ATOM 6167 N ILE B 633 33.709 20.723 90.771 1.00 36.62 N ATOM 6168 CA ILE B 633 32.791 19.802 90.085 1.00 35.21 C ATOM 6169 C ILE B 633 31.311 20.083 90.407 1.00 34.11 C ATOM 6170 O ILE B 633 30.989 20.865 91.304 1.00 33.95 O ATOM 6171 CB ILE B 633 33.114 18.305 90.386 1.00 35.23 C ATOM 6172 CG1 ILE B 633 33.095 18.029 91.897 1.00 35.46 C ATOM 6173 CG2 ILE B 633 34.442 17.899 89.753 1.00 35.13 C ATOM 6174 CD1 ILE B 633 33.029 16.548 92.276 1.00 35.24 C ATOM 6175 N HIS B 634 30.427 19.443 89.649 1.00 32.61 N ATOM 6176 CA HIS B 634 28.997 19.432 89.926 1.00 31.14 C ATOM 6177 C HIS B 634 28.545 17.987 89.768 1.00 30.28 C ATOM 6178 O HIS B 634 29.146 17.241 88.999 1.00 30.19 O ATOM 6179 CB HIS B 634 28.269 20.333 88.929 1.00 31.15 C ATOM 6180 CG HIS B 634 26.860 20.660 89.314 1.00 30.24 C ATOM 6181 ND1 HIS B 634 25.796 19.833 89.026 1.00 29.34 N ATOM 6182 CD2 HIS B 634 26.338 21.735 89.951 1.00 30.00 C ATOM 6183 CE1 HIS B 634 24.680 20.380 89.472 1.00 29.34 C ATOM 6184 NE2 HIS B 634 24.982 21.535 90.038 1.00 30.20 N ATOM 6185 N SER B 635 27.506 17.583 90.495 1.00 29.11 N ATOM 6186 CA SER B 635 26.977 16.221 90.373 1.00 28.04 C ATOM 6187 C SER B 635 26.431 15.915 88.969 1.00 27.70 C ATOM 6188 O SER B 635 26.425 14.756 88.541 1.00 27.05 O ATOM 6189 CB SER B 635 25.908 15.942 91.436 1.00 27.88 C ATOM 6190 OG SER B 635 24.818 16.840 91.338 1.00 26.71 O ATOM 6191 N SER B 636 25.989 16.958 88.262 1.00 27.32 N ATOM 6192 CA SER B 636 25.428 16.807 86.911 1.00 27.42 C ATOM 6193 C SER B 636 26.478 16.561 85.823 1.00 27.66 C ATOM 6194 O SER B 636 26.159 16.009 84.772 1.00 27.51 O ATOM 6195 CB SER B 636 24.521 17.997 86.532 1.00 27.18 C ATOM 6196 OG SER B 636 25.254 19.163 86.216 1.00 26.00 O ATOM 6197 N THR B 637 27.724 16.960 86.082 1.00 27.97 N ATOM 6198 CA THR B 637 28.763 16.932 85.052 1.00 28.33 C ATOM 6199 C THR B 637 30.034 16.143 85.402 1.00 28.89 C ATOM 6200 O THR B 637 30.873 15.914 84.538 1.00 29.27 O ATOM 6201 CB THR B 637 29.141 18.364 84.603 1.00 28.37 C ATOM 6202 OG1 THR B 637 29.527 19.145 85.737 1.00 27.92 O ATOM 6203 CG2 THR B 637 27.964 19.040 83.908 1.00 27.92 C ATOM 6204 N MET B 638 30.167 15.711 86.652 1.00 29.49 N ATOM 6205 CA MET B 638 31.403 15.080 87.127 1.00 29.95 C ATOM 6206 C MET B 638 31.715 13.724 86.486 1.00 30.08 C ATOM 6207 O MET B 638 30.809 12.946 86.167 1.00 30.00 O ATOM 6208 CB MET B 638 31.378 14.927 88.653 1.00 29.81 C ATOM 6209 CG MET B 638 30.412 13.855 89.154 1.00 30.05 C ATOM 6210 SD MET B 638 30.300 13.721 90.945 1.00 30.64 S ATOM 6211 CE MET B 638 31.896 13.016 91.361 1.00 29.91 C ATOM 6212 N ASN B 639 33.011 13.471 86.299 1.00 30.42 N ATOM 6213 CA ASN B 639 33.542 12.150 85.977 1.00 30.51 C ATOM 6214 C ASN B 639 34.784 11.921 86.841 1.00 30.90 C ATOM 6215 O ASN B 639 35.918 12.150 86.408 1.00 30.95 O ATOM 6216 CB ASN B 639 33.863 12.037 84.480 1.00 30.39 C ATOM 6217 CG ASN B 639 34.277 10.615 84.055 1.00 30.13 C ATOM 6218 OD1 ASN B 639 34.191 9.662 84.826 1.00 30.23 O ATOM 6219 ND2 ASN B 639 34.713 10.481 82.813 1.00 29.51 N ATOM 6220 N ASN B 640 34.554 11.502 88.083 1.00 31.45 N ATOM 6221 CA ASN B 640 35.633 11.296 89.053 1.00 31.97 C ATOM 6222 C ASN B 640 35.288 10.186 90.044 1.00 32.21 C ATOM 6223 O ASN B 640 34.527 10.400 90.990 1.00 32.49 O ATOM 6224 CB ASN B 640 35.971 12.609 89.782 1.00 31.92 C ATOM 6225 CG ASN B 640 37.235 12.510 90.643 1.00 31.97 C ATOM 6226 OD1 ASN B 640 37.501 11.490 91.281 1.00 31.32 O ATOM 6227 ND2 ASN B 640 38.003 13.592 90.680 1.00 31.96 N ATOM 6228 N ARG B 641 35.863 9.008 89.812 1.00 32.49 N ATOM 6229 CA ARG B 641 35.540 7.791 90.557 1.00 32.86 C ATOM 6230 C ARG B 641 35.703 7.959 92.064 1.00 32.87 C ATOM 6231 O ARG B 641 34.816 7.588 92.840 1.00 32.81 O ATOM 6232 CB ARG B 641 36.406 6.628 90.062 1.00 32.80 C ATOM 6233 CG ARG B 641 35.973 5.269 90.580 1.00 33.41 C ATOM 6234 CD ARG B 641 36.905 4.161 90.105 1.00 33.67 C ATOM 6235 NE ARG B 641 36.912 3.051 91.056 1.00 35.87 N ATOM 6236 CZ ARG B 641 37.665 3.004 92.157 1.00 36.27 C ATOM 6237 NH1 ARG B 641 38.495 4.002 92.455 1.00 36.05 N ATOM 6238 NH2 ARG B 641 37.585 1.955 92.964 1.00 36.68 N ATOM 6239 N ARG B 642 36.831 8.537 92.463 1.00 32.85 N ATOM 6240 CA ARG B 642 37.184 8.666 93.872 1.00 33.07 C ATOM 6241 C ARG B 642 36.357 9.723 94.595 1.00 32.61 C ATOM 6242 O ARG B 642 36.105 9.604 95.798 1.00 32.71 O ATOM 6243 CB ARG B 642 38.681 8.953 94.025 1.00 33.04 C ATOM 6244 CG ARG B 642 39.574 7.756 93.697 1.00 33.88 C ATOM 6245 CD ARG B 642 41.050 8.017 94.027 1.00 34.29 C ATOM 6246 NE ARG B 642 41.268 8.245 95.460 1.00 37.31 N ATOM 6247 CZ ARG B 642 41.457 7.282 96.361 1.00 37.98 C ATOM 6248 NH1 ARG B 642 41.463 6.005 95.990 1.00 38.69 N ATOM 6249 NH2 ARG B 642 41.641 7.598 97.638 1.00 37.84 N ATOM 6250 N ALA B 643 35.932 10.747 93.857 1.00 32.16 N ATOM 6251 CA ALA B 643 35.142 11.849 94.414 1.00 31.41 C ATOM 6252 C ALA B 643 33.667 11.488 94.622 1.00 31.11 C ATOM 6253 O ALA B 643 32.887 12.299 95.132 1.00 30.94 O ATOM 6254 CB ALA B 643 35.264 13.074 93.532 1.00 31.43 C ATOM 6255 N GLN B 644 33.286 10.277 94.222 1.00 30.62 N ATOM 6256 CA GLN B 644 31.919 9.816 94.408 1.00 30.47 C ATOM 6257 C GLN B 644 31.524 9.710 95.876 1.00 30.49 C ATOM 6258 O GLN B 644 32.357 9.480 96.751 1.00 30.49 O ATOM 6259 CB GLN B 644 31.696 8.471 93.720 1.00 30.52 C ATOM 6260 CG GLN B 644 31.484 8.568 92.220 1.00 29.92 C ATOM 6261 CD GLN B 644 31.467 7.215 91.541 1.00 29.58 C ATOM 6262 OE1 GLN B 644 30.637 6.959 90.673 1.00 30.06 O ATOM 6263 NE2 GLN B 644 32.389 6.341 91.931 1.00 29.22 N ATOM 6264 N ASN B 645 30.240 9.919 96.127 1.00 30.46 N ATOM 6265 CA ASN B 645 29.640 9.644 97.415 1.00 30.49 C ATOM 6266 C ASN B 645 28.243 9.125 97.164 1.00 30.53 C ATOM 6267 O ASN B 645 27.442 9.769 96.500 1.00 30.67 O ATOM 6268 CB ASN B 645 29.648 10.877 98.326 1.00 30.58 C ATOM 6269 CG ASN B 645 29.560 12.182 97.561 1.00 30.20 C ATOM 6270 OD1 ASN B 645 28.510 12.539 97.028 1.00 30.62 O ATOM 6271 ND2 ASN B 645 30.666 12.913 97.524 1.00 30.23 N ATOM 6272 N THR B 646 27.961 7.939 97.678 1.00 30.74 N ATOM 6273 CA THR B 646 26.791 7.190 97.249 1.00 30.73 C ATOM 6274 C THR B 646 25.737 7.151 98.353 1.00 31.05 C ATOM 6275 O THR B 646 25.209 8.194 98.739 1.00 30.70 O ATOM 6276 CB THR B 646 27.192 5.774 96.829 1.00 30.69 C ATOM 6277 OG1 THR B 646 27.561 5.028 97.992 1.00 30.51 O ATOM 6278 CG2 THR B 646 28.384 5.818 95.876 1.00 30.41 C ATOM 6279 N GLU B 647 25.435 5.950 98.848 1.00 31.56 N ATOM 6280 CA GLU B 647 24.525 5.768 99.975 1.00 32.18 C ATOM 6281 C GLU B 647 25.054 6.515 101.186 1.00 32.43 C ATOM 6282 O GLU B 647 26.270 6.637 101.374 1.00 32.48 O ATOM 6283 CB GLU B 647 24.369 4.291 100.321 1.00 32.27 C ATOM 6284 CG GLU B 647 23.775 3.457 99.201 1.00 32.91 C ATOM 6285 CD GLU B 647 24.100 1.988 99.335 1.00 33.55 C ATOM 6286 OE1 GLU B 647 25.078 1.656 100.039 1.00 33.54 O ATOM 6287 OE2 GLU B 647 23.382 1.163 98.730 1.00 34.03 O ATOM 6288 N SER B 648 24.136 7.024 101.996 1.00 32.58 N ATOM 6289 CA SER B 648 24.510 7.835 103.134 1.00 32.94 C ATOM 6290 C SER B 648 23.516 7.691 104.273 1.00 33.01 C ATOM 6291 O SER B 648 22.379 7.262 104.075 1.00 32.79 O ATOM 6292 CB SER B 648 24.652 9.311 102.724 1.00 33.13 C ATOM 6293 OG SER B 648 23.469 9.802 102.113 1.00 33.64 O ATOM 6294 N THR B 649 23.971 8.033 105.471 1.00 33.15 N ATOM 6295 CA THR B 649 23.102 8.109 106.627 1.00 33.32 C ATOM 6296 C THR B 649 23.231 9.493 107.251 1.00 33.56 C ATOM 6297 O THR B 649 24.300 10.108 107.209 1.00 33.69 O ATOM 6298 CB THR B 649 23.379 6.985 107.650 1.00 33.37 C ATOM 6299 OG1 THR B 649 22.621 7.229 108.844 1.00 33.36 O ATOM 6300 CG2 THR B 649 24.868 6.883 107.993 1.00 33.03 C ATOM 6301 N VAL B 650 22.136 9.982 107.820 1.00 33.77 N ATOM 6302 CA VAL B 650 22.065 11.368 108.249 1.00 34.11 C ATOM 6303 C VAL B 650 21.682 11.501 109.727 1.00 34.60 C ATOM 6304 O VAL B 650 20.816 10.776 110.222 1.00 34.57 O ATOM 6305 CB VAL B 650 21.100 12.182 107.326 1.00 34.04 C ATOM 6306 CG1 VAL B 650 19.651 11.696 107.458 1.00 33.59 C ATOM 6307 CG2 VAL B 650 21.206 13.673 107.599 1.00 33.79 C ATOM 6308 N VAL B 651 22.355 12.415 110.423 1.00 35.13 N ATOM 6309 CA VAL B 651 22.017 12.759 111.805 1.00 35.93 C ATOM 6310 C VAL B 651 22.063 14.267 112.028 1.00 36.31 C ATOM 6311 O VAL B 651 22.900 14.967 111.453 1.00 36.43 O ATOM 6312 CB VAL B 651 22.952 12.074 112.845 1.00 36.03 C ATOM 6313 CG1 VAL B 651 22.773 10.571 112.836 1.00 36.31 C ATOM 6314 CG2 VAL B 651 24.408 12.436 112.604 1.00 36.27 C ATOM 6315 N GLN B 652 21.160 14.769 112.861 1.00 36.82 N ATOM 6316 CA GLN B 652 21.233 16.161 113.264 1.00 37.41 C ATOM 6317 C GLN B 652 21.910 16.273 114.623 1.00 37.78 C ATOM 6318 O GLN B 652 21.678 15.451 115.512 1.00 37.95 O ATOM 6319 CB GLN B 652 19.850 16.810 113.302 1.00 37.43 C ATOM 6320 CG GLN B 652 19.899 18.313 113.047 1.00 37.72 C ATOM 6321 CD GLN B 652 18.720 19.077 113.632 1.00 38.16 C ATOM 6322 OE1 GLN B 652 17.766 18.491 114.150 1.00 38.47 O ATOM 6323 NE2 GLN B 652 18.786 20.402 113.548 1.00 37.82 N ATOM 6324 N LEU B 653 22.753 17.290 114.761 1.00 38.25 N ATOM 6325 CA LEU B 653 23.405 17.630 116.023 1.00 38.70 C ATOM 6326 C LEU B 653 22.532 18.598 116.816 1.00 39.15 C ATOM 6327 O LEU B 653 21.577 19.162 116.273 1.00 39.25 O ATOM 6328 CB LEU B 653 24.769 18.263 115.746 1.00 38.70 C ATOM 6329 CG LEU B 653 25.999 17.360 115.592 1.00 38.71 C ATOM 6330 CD1 LEU B 653 25.699 16.004 114.947 1.00 38.44 C ATOM 6331 CD2 LEU B 653 27.103 18.091 114.842 1.00 38.52 C ATOM 6332 N ASN B 654 22.858 18.790 118.095 1.00 39.62 N ATOM 6333 CA ASN B 654 22.079 19.676 118.967 1.00 40.08 C ATOM 6334 C ASN B 654 22.290 21.168 118.691 1.00 40.13 C ATOM 6335 O ASN B 654 21.469 21.997 119.087 1.00 40.19 O ATOM 6336 CB ASN B 654 22.346 19.368 120.443 1.00 40.32 C ATOM 6337 CG ASN B 654 21.733 18.053 120.892 1.00 40.87 C ATOM 6338 OD1 ASN B 654 20.739 17.583 120.335 1.00 41.05 O ATOM 6339 ND2 ASN B 654 22.325 17.456 121.918 1.00 41.61 N ATOM 6340 N ASN B 655 23.388 21.504 118.017 1.00 40.19 N ATOM 6341 CA ASN B 655 23.628 22.881 117.588 1.00 40.29 C ATOM 6342 C ASN B 655 22.899 23.218 116.281 1.00 40.45 C ATOM 6343 O ASN B 655 22.902 24.368 115.837 1.00 40.61 O ATOM 6344 CB ASN B 655 25.130 23.177 117.478 1.00 40.22 C ATOM 6345 CG ASN B 655 25.822 22.350 116.412 1.00 40.34 C ATOM 6346 OD1 ASN B 655 25.177 21.668 115.611 1.00 39.94 O ATOM 6347 ND2 ASN B 655 27.150 22.408 116.396 1.00 40.27 N ATOM 6348 N GLY B 656 22.278 22.208 115.674 1.00 40.28 N ATOM 6349 CA GLY B 656 21.464 22.410 114.481 1.00 40.20 C ATOM 6350 C GLY B 656 22.104 21.954 113.182 1.00 40.06 C ATOM 6351 O GLY B 656 21.459 21.995 112.133 1.00 40.16 O ATOM 6352 N ASP B 657 23.366 21.524 113.253 1.00 39.76 N ATOM 6353 CA ASP B 657 24.093 21.012 112.093 1.00 39.45 C ATOM 6354 C ASP B 657 23.578 19.650 111.651 1.00 39.31 C ATOM 6355 O ASP B 657 23.130 18.844 112.469 1.00 39.23 O ATOM 6356 CB ASP B 657 25.595 20.909 112.381 1.00 39.57 C ATOM 6357 CG ASP B 657 26.311 22.243 112.277 1.00 39.98 C ATOM 6358 OD1 ASP B 657 25.646 23.267 112.021 1.00 40.62 O ATOM 6359 OD2 ASP B 657 27.547 22.268 112.455 1.00 40.78 O ATOM 6360 N VAL B 658 23.656 19.410 110.344 1.00 38.99 N ATOM 6361 CA VAL B 658 23.281 18.136 109.755 1.00 38.53 C ATOM 6362 C VAL B 658 24.554 17.447 109.277 1.00 38.26 C ATOM 6363 O VAL B 658 25.348 18.037 108.537 1.00 38.28 O ATOM 6364 CB VAL B 658 22.286 18.325 108.577 1.00 38.55 C ATOM 6365 CG1 VAL B 658 22.095 17.029 107.815 1.00 38.48 C ATOM 6366 CG2 VAL B 658 20.941 18.850 109.075 1.00 38.16 C ATOM 6367 N LYS B 659 24.746 16.206 109.714 1.00 37.76 N ATOM 6368 CA LYS B 659 25.906 15.418 109.315 1.00 37.33 C ATOM 6369 C LYS B 659 25.483 14.301 108.375 1.00 37.13 C ATOM 6370 O LYS B 659 24.463 13.647 108.593 1.00 36.88 O ATOM 6371 CB LYS B 659 26.632 14.839 110.537 1.00 37.31 C ATOM 6372 CG LYS B 659 27.303 15.875 111.445 1.00 37.18 C ATOM 6373 CD LYS B 659 28.607 16.418 110.863 1.00 36.75 C ATOM 6374 CE LYS B 659 29.096 17.630 111.648 1.00 36.02 C ATOM 6375 NZ LYS B 659 30.472 18.040 111.259 1.00 35.60 N ATOM 6376 N LEU B 660 26.276 14.092 107.329 1.00 37.06 N ATOM 6377 CA LEU B 660 25.977 13.079 106.322 1.00 36.95 C ATOM 6378 C LEU B 660 27.154 12.126 106.145 1.00 36.91 C ATOM 6379 O LEU B 660 28.214 12.511 105.631 1.00 37.04 O ATOM 6380 CB LEU B 660 25.607 13.745 104.991 1.00 36.86 C ATOM 6381 CG LEU B 660 24.945 12.895 103.905 1.00 36.91 C ATOM 6382 CD1 LEU B 660 23.559 12.412 104.334 1.00 37.17 C ATOM 6383 CD2 LEU B 660 24.861 13.682 102.601 1.00 36.71 C ATOM 6384 N PHE B 661 26.958 10.885 106.583 1.00 36.70 N ATOM 6385 CA PHE B 661 27.981 9.850 106.478 1.00 36.49 C ATOM 6386 C PHE B 661 27.794 9.100 105.172 1.00 36.20 C ATOM 6387 O PHE B 661 26.821 8.355 105.015 1.00 36.27 O ATOM 6388 CB PHE B 661 27.903 8.883 107.665 1.00 36.74 C ATOM 6389 CG PHE B 661 28.026 9.553 109.001 1.00 36.81 C ATOM 6390 CD1 PHE B 661 26.896 9.970 109.689 1.00 37.20 C ATOM 6391 CD2 PHE B 661 29.274 9.773 109.567 1.00 37.20 C ATOM 6392 CE1 PHE B 661 27.008 10.598 110.922 1.00 37.74 C ATOM 6393 CE2 PHE B 661 29.398 10.399 110.798 1.00 37.22 C ATOM 6394 CZ PHE B 661 28.262 10.811 111.480 1.00 37.41 C ATOM 6395 N MET B 662 28.737 9.290 104.250 1.00 35.65 N ATOM 6396 CA MET B 662 28.597 8.803 102.878 1.00 35.13 C ATOM 6397 C MET B 662 29.526 7.640 102.549 1.00 35.17 C ATOM 6398 O MET B 662 30.739 7.713 102.770 1.00 35.24 O ATOM 6399 CB MET B 662 28.846 9.938 101.882 1.00 35.15 C ATOM 6400 CG MET B 662 28.151 11.245 102.221 1.00 34.88 C ATOM 6401 SD MET B 662 28.756 12.609 101.223 1.00 34.36 S ATOM 6402 CE MET B 662 30.406 12.865 101.881 1.00 34.45 C ATOM 6403 N ARG B 663 28.943 6.577 102.003 1.00 34.95 N ATOM 6404 CA ARG B 663 29.704 5.456 101.472 1.00 34.97 C ATOM 6405 C ARG B 663 30.557 5.937 100.295 1.00 35.40 C ATOM 6406 O ARG B 663 30.040 6.526 99.336 1.00 35.40 O ATOM 6407 CB ARG B 663 28.754 4.333 101.046 1.00 34.72 C ATOM 6408 CG ARG B 663 29.364 3.270 100.151 1.00 33.52 C ATOM 6409 CD ARG B 663 28.285 2.352 99.644 1.00 31.63 C ATOM 6410 NE ARG B 663 28.770 1.410 98.641 1.00 30.82 N ATOM 6411 CZ ARG B 663 28.104 0.323 98.268 1.00 29.94 C ATOM 6412 NH1 ARG B 663 26.934 0.046 98.819 1.00 29.40 N ATOM 6413 NH2 ARG B 663 28.603 −0.487 97.345 1.00 29.21 N ATOM 6414 N GLY B 664 31.863 5.694 100.385 1.00 35.71 N ATOM 6415 CA GLY B 664 32.810 6.214 99.405 1.00 36.17 C ATOM 6416 C GLY B 664 33.890 5.226 99.029 1.00 36.59 C ATOM 6417 O GLY B 664 33.860 4.062 99.439 1.00 36.76 O ATOM 6418 N LEU B 665 34.853 5.699 98.249 1.00 36.89 N ATOM 6419 CA LEU B 665 35.900 4.844 97.718 1.00 37.23 C ATOM 6420 C LEU B 665 37.297 5.274 98.168 1.00 37.62 C ATOM 6421 O LEU B 665 38.290 4.966 97.506 1.00 37.57 O ATOM 6422 CB LEU B 665 35.801 4.779 96.190 1.00 37.18 C ATOM 6423 CG LEU B 665 34.682 3.890 95.638 1.00 36.93 C ATOM 6424 CD1 LEU B 665 34.257 4.329 94.249 1.00 36.63 C ATOM 6425 CD2 LEU B 665 35.092 2.412 95.644 1.00 36.88 C ATOM 6426 N THR B 666 37.364 5.974 99.301 1.00 38.06 N ATOM 6427 CA THR B 666 38.646 6.360 99.897 1.00 38.66 C ATOM 6428 C THR B 666 39.148 5.333 100.914 1.00 38.88 C ATOM 6429 O THR B 666 40.321 5.349 101.287 1.00 38.87 O ATOM 6430 CB THR B 666 38.592 7.753 100.584 1.00 38.75 C ATOM 6431 OG1 THR B 666 37.646 7.730 101.662 1.00 39.11 O ATOM 6432 CG2 THR B 666 38.211 8.844 99.590 1.00 38.80 C ATOM 6433 N GLY B 667 38.260 4.442 101.351 1.00 39.30 N ATOM 6434 CA GLY B 667 38.576 3.491 102.416 1.00 39.73 C ATOM 6435 C GLY B 667 38.369 4.111 103.785 1.00 40.20 C ATOM 6436 O GLY B 667 38.405 3.419 104.804 1.00 40.13 O ATOM 6437 N ASP B 668 38.158 5.428 103.787 1.00 40.78 N ATOM 6438 CA ASP B 668 37.900 6.227 104.982 1.00 41.31 C ATOM 6439 C ASP B 668 36.405 6.427 105.177 1.00 41.36 C ATOM 6440 O ASP B 668 35.604 6.106 104.300 1.00 41.66 O ATOM 6441 CB ASP B 668 38.546 7.614 104.834 1.00 41.62 C ATOM 6442 CG ASP B 668 39.972 7.664 105.350 1.00 42.29 C ATOM 6443 OD1 ASP B 668 40.392 6.725 106.056 1.00 43.63 O ATOM 6444 OD2 ASP B 668 40.672 8.658 105.061 1.00 42.93 O ATOM 6445 N LEU B 669 36.038 6.969 106.332 1.00 41.26 N ATOM 6446 CA LEU B 669 34.698 7.487 106.538 1.00 41.04 C ATOM 6447 C LEU B 669 34.659 8.909 105.994 1.00 41.03 C ATOM 6448 O LEU B 669 35.568 9.707 106.254 1.00 41.00 O ATOM 6449 CB LEU B 669 34.345 7.479 108.025 1.00 40.95 C ATOM 6450 CG LEU B 669 33.055 8.178 108.455 1.00 40.63 C ATOM 6451 CD1 LEU B 669 31.834 7.316 108.176 1.00 40.02 C ATOM 6452 CD2 LEU B 669 33.136 8.530 109.921 1.00 40.31 C ATOM 6453 N GLN B 670 33.613 9.220 105.233 1.00 40.89 N ATOM 6454 CA GLN B 670 33.448 10.557 104.672 1.00 40.53 C ATOM 6455 C GLN B 670 32.218 11.249 105.254 1.00 40.66 C ATOM 6456 O GLN B 670 31.122 10.676 105.289 1.00 40.71 O ATOM 6457 CB GLN B 670 33.380 10.494 103.148 1.00 40.55 C ATOM 6458 CG GLN B 670 34.729 10.279 102.483 1.00 39.86 C ATOM 6459 CD GLN B 670 34.626 10.223 100.975 1.00 39.49 C ATOM 6460 OE1 GLN B 670 34.779 11.374 100.325 1.00 39.01 O ATOM 6461 NE2 GLN B 670 34.419 9.158 100.398 1.00 39.28 N ATOM 6462 N VAL B 671 32.412 12.480 105.721 1.00 40.61 N ATOM 6463 CA VAL B 671 31.358 13.223 106.408 1.00 40.53 C ATOM 6464 C VAL B 671 31.248 14.638 105.860 1.00 40.54 C ATOM 6465 O VAL B 671 32.255 15.328 105.701 1.00 40.65 O ATOM 6466 CB VAL B 671 31.602 13.284 107.941 1.00 40.73 C ATOM 6467 CG1 VAL B 671 30.418 13.933 108.659 1.00 40.16 C ATOM 6468 CG2 VAL B 671 31.865 11.891 108.503 1.00 40.42 C ATOM 6469 N ALA B 672 30.014 15.054 105.576 1.00 40.45 N ATOM 6470 CA ALA B 672 29.715 16.402 105.098 1.00 40.37 C ATOM 6471 C ALA B 672 28.747 17.121 106.045 1.00 40.34 C ATOM 6472 O ALA B 672 27.950 16.477 106.734 1.00 40.25 O ATOM 6473 CB ALA B 672 29.150 16.347 103.685 1.00 40.35 C ATOM 6474 N THR B 673 28.819 18.453 106.064 1.00 40.29 N ATOM 6475 CA THR B 673 28.036 19.271 106.990 1.00 40.34 C ATOM 6476 C THR B 673 27.122 20.264 106.264 1.00 40.43 C ATOM 6477 O THR B 673 27.548 20.954 105.329 1.00 40.35 O ATOM 6478 CB THR B 673 28.955 20.048 107.968 1.00 40.25 C ATOM 6479 OG1 THR B 673 29.985 19.182 108.453 1.00 40.57 O ATOM 6480 CG2 THR B 673 28.168 20.587 109.152 1.00 40.04 C ATOM 6481 N SER B 674 25.867 20.320 106.707 1.00 40.49 N ATOM 6482 CA SER B 674 24.899 21.311 106.239 1.00 40.62 C ATOM 6483 C SER B 674 24.460 22.223 107.378 1.00 40.70 C ATOM 6484 O SER B 674 24.114 21.749 108.462 1.00 40.73 O ATOM 6485 CB SER B 674 23.670 20.629 105.643 1.00 40.64 C ATOM 6486 OG SER B 674 22.635 21.571 105.414 1.00 40.66 O ATOM 6487 N LYS B 675 24.462 23.528 107.117 1.00 40.88 N ATOM 6488 CA LYS B 675 24.060 24.526 108.116 1.00 41.07 C ATOM 6489 C LYS B 675 22.715 25.192 107.821 1.00 41.02 C ATOM 6490 O LYS B 675 22.285 26.090 108.552 1.00 41.19 O ATOM 6491 CB LYS B 675 25.173 25.560 108.334 1.00 40.96 C ATOM 6492 CG LYS B 675 25.978 25.270 109.592 1.00 41.67 C ATOM 6493 CD LYS B 675 27.452 25.608 109.472 1.00 42.34 C ATOM 6494 CE LYS B 675 28.180 25.176 110.739 1.00 42.70 C ATOM 6495 NZ LYS B 675 29.664 25.223 110.620 1.00 43.32 N ATOM 6496 N ASP B 676 22.052 24.729 106.762 1.00 40.93 N ATOM 6497 CA ASP B 676 20.725 25.218 106.384 1.00 40.81 C ATOM 6498 C ASP B 676 19.693 24.089 106.330 1.00 40.64 C ATOM 6499 O ASP B 676 18.710 24.164 105.588 1.00 40.61 O ATOM 6500 CB ASP B 676 20.782 25.977 105.050 1.00 40.92 C ATOM 6501 CG ASP B 676 21.579 25.238 103.978 1.00 41.34 C ATOM 6502 OD1 ASP B 676 21.555 23.986 103.936 1.00 41.19 O ATOM 6503 OD2 ASP B 676 22.236 25.924 103.170 1.00 41.38 O ATOM 6504 N GLY B 677 19.934 23.046 107.120 1.00 40.51 N ATOM 6505 CA GLY B 677 18.985 21.950 107.290 1.00 40.38 C ATOM 6506 C GLY B 677 18.970 20.909 106.187 1.00 40.40 C ATOM 6507 O GLY B 677 17.936 20.282 105.943 1.00 40.23 O ATOM 6508 N GLY B 678 20.108 20.729 105.518 1.00 40.47 N ATOM 6509 CA GLY B 678 20.259 19.682 104.501 1.00 40.44 C ATOM 6510 C GLY B 678 20.237 20.119 103.044 1.00 40.42 C ATOM 6511 O GLY B 678 20.337 19.284 102.149 1.00 40.42 O ATOM 6512 N VAL B 679 20.110 21.419 102.794 1.00 40.44 N ATOM 6513 CA VAL B 679 20.050 21.927 101.422 1.00 40.53 C ATOM 6514 C VAL B 679 21.461 22.135 100.851 1.00 40.77 C ATOM 6515 O VAL B 679 21.855 21.465 99.899 1.00 40.75 O ATOM 6516 CB VAL B 679 19.193 23.222 101.311 1.00 40.40 C ATOM 6517 CG1 VAL B 679 18.906 23.553 99.857 1.00 40.37 C ATOM 6518 CG2 VAL B 679 17.887 23.071 102.068 1.00 40.05 C ATOM 6519 N THR B 680 22.210 23.058 101.447 1.00 41.17 N ATOM 6520 CA THR B 680 23.593 23.343 101.060 1.00 41.65 C ATOM 6521 C THR B 680 24.555 22.554 101.942 1.00 41.93 C ATOM 6522 O THR B 680 24.216 22.202 103.069 1.00 42.06 O ATOM 6523 CB THR B 680 23.878 24.864 101.155 1.00 41.61 C ATOM 6524 OG1 THR B 680 23.286 25.526 100.030 1.00 42.10 O ATOM 6525 CG2 THR B 680 25.373 25.182 101.205 1.00 41.77 C ATOM 6526 N TRP B 681 25.743 22.268 101.416 1.00 42.27 N ATOM 6527 CA TRP B 681 26.790 21.572 102.159 1.00 42.70 C ATOM 6528 C TRP B 681 28.060 22.410 102.169 1.00 43.18 C ATOM 6529 O TRP B 681 28.294 23.197 101.251 1.00 43.39 O ATOM 6530 CB TRP B 681 27.062 20.193 101.547 1.00 42.52 C ATOM 6531 CG TRP B 681 25.836 19.343 101.476 1.00 42.57 C ATOM 6532 CD1 TRP B 681 25.009 19.189 100.404 1.00 42.40 C ATOM 6533 CD2 TRP B 681 25.277 18.550 102.533 1.00 42.69 C ATOM 6534 NE1 TRP B 681 23.975 18.339 100.720 1.00 42.45 N ATOM 6535 CE2 TRP B 681 24.114 17.934 102.022 1.00 42.23 C ATOM 6536 CE3 TRP B 681 25.651 18.292 103.859 1.00 42.48 C ATOM 6537 CZ2 TRP B 681 23.320 17.079 102.788 1.00 42.01 C ATOM 6538 CZ3 TRP B 681 24.859 17.442 104.622 1.00 42.47 C ATOM 6539 CH2 TRP B 681 23.708 16.846 104.081 1.00 42.35 C ATOM 6540 N GLU B 682 28.872 22.247 103.210 1.00 43.77 N ATOM 6541 CA GLU B 682 30.123 22.993 103.338 1.00 44.40 C ATOM 6542 C GLU B 682 31.169 22.536 102.329 1.00 44.64 C ATOM 6543 O GLU B 682 31.127 21.401 101.850 1.00 44.38 O ATOM 6544 CB GLU B 682 30.694 22.862 104.750 1.00 44.45 C ATOM 6545 CG GLU B 682 30.150 23.866 105.754 1.00 44.71 C ATOM 6546 CD GLU B 682 30.851 23.779 107.108 1.00 44.68 C ATOM 6547 OE1 GLU B 682 31.979 23.236 107.179 1.00 44.39 O ATOM 6548 OE2 GLU B 682 30.270 24.257 108.106 1.00 45.64 O ATOM 6549 N LYS B 683 32.103 23.440 102.029 1.00 45.23 N ATOM 6550 CA LYS B 683 33.246 23.177 101.151 1.00 45.90 C ATOM 6551 C LYS B 683 33.833 21.785 101.327 1.00 46.24 C ATOM 6552 O LYS B 683 34.064 21.072 100.350 1.00 46.31 O ATOM 6553 CB LYS B 683 34.370 24.182 101.433 1.00 45.93 C ATOM 6554 CG LYS B 683 34.285 25.494 100.692 1.00 46.09 C ATOM 6555 CD LYS B 683 35.606 26.237 100.819 1.00 46.33 C ATOM 6556 CE LYS B 683 35.524 27.630 100.231 1.00 46.73 C ATOM 6557 NZ LYS B 683 35.371 27.610 98.744 1.00 46.64 N ATOM 6558 N ASP B 684 34.064 21.414 102.583 1.00 46.70 N ATOM 6559 CA ASP B 684 34.958 20.316 102.915 1.00 47.23 C ATOM 6560 C ASP B 684 34.266 19.041 103.350 1.00 47.32 C ATOM 6561 O ASP B 684 33.252 19.068 104.048 1.00 47.24 O ATOM 6562 CB ASP B 684 35.958 20.760 103.987 1.00 47.36 C ATOM 6563 CG ASP B 684 36.894 21.846 103.493 1.00 47.92 C ATOM 6564 OD1 ASP B 684 37.594 21.614 102.483 1.00 48.11 O ATOM 6565 OD2 ASP B 684 36.931 22.930 104.114 1.00 49.22 O ATOM 6566 N ILE B 685 34.844 17.929 102.909 1.00 47.68 N ATOM 6567 CA ILE B 685 34.452 16.598 103.338 1.00 48.00 C ATOM 6568 C ILE B 685 35.488 16.120 104.349 1.00 48.37 C ATOM 6569 O ILE B 685 36.681 16.011 104.029 1.00 48.48 O ATOM 6570 CB ILE B 685 34.367 15.621 102.135 1.00 47.90 C ATOM 6571 CG1 ILE B 685 33.134 15.941 101.282 1.00 47.90 C ATOM 6572 CG2 ILE B 685 34.353 14.155 102.602 1.00 47.95 C ATOM 6573 CD1 ILE B 685 32.951 15.033 100.078 1.00 48.05 C ATOM 6574 N LYS B 686 35.034 15.864 105.574 1.00 48.57 N ATOM 6575 CA LYS B 686 35.904 15.329 106.614 1.00 48.86 C ATOM 6576 C LYS B 686 36.127 13.844 106.384 1.00 48.77 C ATOM 6577 O LYS B 686 35.176 13.079 106.216 1.00 48.63 O ATOM 6578 CB LYS B 686 35.321 15.567 108.012 1.00 48.99 C ATOM 6579 CG LYS B 686 35.474 16.991 108.526 1.00 49.78 C ATOM 6580 CD LYS B 686 34.584 17.240 109.741 1.00 50.51 C ATOM 6581 CE LYS B 686 34.607 18.707 110.157 1.00 50.94 C ATOM 6582 NZ LYS B 686 33.600 19.007 111.219 1.00 51.37 N ATOM 6583 N ARG B 687 37.397 13.457 106.362 1.00 48.98 N ATOM 6584 CA ARG B 687 37.787 12.057 106.300 1.00 49.08 C ATOM 6585 C ARG B 687 38.231 11.603 107.686 1.00 49.30 C ATOM 6586 O ARG B 687 39.055 12.267 108.323 1.00 49.42 O ATOM 6587 CB ARG B 687 38.915 11.862 105.289 1.00 49.01 C ATOM 6588 CG ARG B 687 38.480 11.999 103.836 1.00 48.44 C ATOM 6589 CD ARG B 687 39.643 11.767 102.891 1.00 47.59 C ATOM 6590 NE ARG B 687 40.095 10.378 102.916 1.00 47.31 N ATOM 6591 CZ ARG B 687 41.181 9.928 102.293 1.00 47.30 C ATOM 6592 NH1 ARG B 687 41.941 10.758 101.588 1.00 47.38 N ATOM 6593 NH2 ARG B 687 41.509 8.644 102.376 1.00 46.54 N ATOM 6594 N TYR B 688 37.667 10.491 108.157 1.00 49.37 N ATOM 6595 CA TYR B 688 38.048 9.913 109.447 1.00 49.52 C ATOM 6596 C TYR B 688 38.725 8.552 109.275 1.00 49.68 C ATOM 6597 O TYR B 688 38.041 7.530 109.190 1.00 49.78 O ATOM 6598 CB TYR B 688 36.835 9.805 110.379 1.00 49.56 C ATOM 6599 CG TYR B 688 36.301 11.142 110.830 1.00 49.61 C ATOM 6600 CD1 TYR B 688 35.131 11.669 110.281 1.00 49.34 C ATOM 6601 CD2 TYR B 688 36.973 11.892 111.797 1.00 49.74 C ATOM 6602 CE1 TYR B 688 34.640 12.907 110.688 1.00 49.34 C ATOM 6603 CE2 TYR B 688 36.492 13.129 112.211 1.00 49.56 C ATOM 6604 CZ TYR B 688 35.327 13.630 111.653 1.00 49.62 C ATOM 6605 OH TYR B 688 34.849 14.852 112.066 1.00 49.63 O ATOM 6606 N PRO B 689 40.075 8.537 109.221 1.00 49.86 N ATOM 6607 CA PRO B 689 40.873 7.312 109.052 1.00 49.87 C ATOM 6608 C PRO B 689 40.729 6.298 110.189 1.00 49.96 C ATOM 6609 O PRO B 689 40.927 5.097 109.964 1.00 49.84 O ATOM 6610 CB PRO B 689 42.314 7.833 108.985 1.00 49.78 C ATOM 6611 CG PRO B 689 42.272 9.155 109.643 1.00 49.94 C ATOM 6612 CD PRO B 689 40.935 9.731 109.312 1.00 49.88 C ATOM 6613 N GLN B 690 40.386 6.781 111.386 1.00 50.02 N ATOM 6614 CA GLN B 690 40.162 5.918 112.551 1.00 50.19 C ATOM 6615 C GLN B 690 38.971 4.979 112.341 1.00 50.18 C ATOM 6616 O GLN B 690 38.780 4.035 113.110 1.00 50.24 O ATOM 6617 CB GLN B 690 39.946 6.741 113.831 1.00 50.32 C ATOM 6618 CG GLN B 690 41.043 7.753 114.170 1.00 50.65 C ATOM 6619 CD GLN B 690 40.742 9.157 113.645 1.00 51.51 C ATOM 6620 OE1 GLN B 690 39.580 9.535 113.463 1.00 51.72 O ATOM 6621 NE2 GLN B 690 41.792 9.937 113.407 1.00 51.29 N ATOM 6622 N VAL B 691 38.173 5.256 111.308 1.00 50.12 N ATOM 6623 CA VAL B 691 37.027 4.422 110.930 1.00 49.96 C ATOM 6624 C VAL B 691 37.199 3.911 109.494 1.00 49.82 C ATOM 6625 O VAL B 691 37.492 4.688 108.578 1.00 49.87 O ATOM 6626 CB VAL B 691 35.682 5.197 111.075 1.00 50.20 C ATOM 6627 CG1 VAL B 691 34.504 4.400 110.495 1.00 49.82 C ATOM 6628 CG2 VAL B 691 35.421 5.566 112.543 1.00 49.91 C ATOM 6629 N LYS B 692 37.024 2.604 109.308 1.00 49.51 N ATOM 6630 CA LYS B 692 37.158 1.988 107.988 1.00 49.15 C ATOM 6631 C LYS B 692 35.842 1.973 107.217 1.00 48.80 C ATOM 6632 O LYS B 692 34.763 1.921 107.812 1.00 48.51 O ATOM 6633 CB LYS B 692 37.719 0.562 108.099 1.00 49.19 C ATOM 6634 CG LYS B 692 39.212 0.485 108.425 1.00 49.43 C ATOM 6635 CD LYS B 692 40.085 0.769 107.203 1.00 49.70 C ATOM 6636 CE LYS B 692 41.567 0.776 107.557 1.00 50.10 C ATOM 6637 NZ LYS B 692 41.951 1.968 108.372 1.00 50.65 N ATOM 6638 N ASP B 693 35.958 2.025 105.890 1.00 48.52 N ATOM 6639 CA ASP B 693 34.830 1.869 104.968 1.00 48.19 C ATOM 6640 C ASP B 693 35.309 1.042 103.782 1.00 47.97 C ATOM 6641 O ASP B 693 36.155 1.486 103.001 1.00 48.09 O ATOM 6642 CB ASP B 693 34.306 3.243 104.509 1.00 48.18 C ATOM 6643 CG ASP B 693 33.185 3.151 103.461 1.00 48.23 C ATOM 6644 OD1 ASP B 693 32.438 2.146 103.428 1.00 48.53 O ATOM 6645 OD2 ASP B 693 33.044 4.110 102.670 1.00 47.72 O ATOM 6646 N VAL B 694 34.772 −0.166 103.658 1.00 47.60 N ATOM 6647 CA VAL B 694 35.160 −1.076 102.577 1.00 47.20 C ATOM 6648 C VAL B 694 34.241 −0.942 101.359 1.00 47.03 C ATOM 6649 O VAL B 694 34.066 −1.896 100.593 1.00 46.86 O ATOM 6650 CB VAL B 694 35.221 −2.547 103.061 1.00 47.17 C ATOM 6651 CG1 VAL B 694 36.454 −2.772 103.926 1.00 47.07 C ATOM 6652 CG2 VAL B 694 33.949 −2.928 103.810 1.00 46.92 C ATOM 6653 N TYR B 695 33.680 0.258 101.190 1.00 46.94 N ATOM 6654 CA TYR B 695 32.687 0.574 100.150 1.00 46.79 C ATOM 6655 C TYR B 695 31.403 −0.251 100.317 1.00 46.59 C ATOM 6656 O TYR B 695 31.110 −1.165 99.539 1.00 46.43 O ATOM 6657 CB TYR B 695 33.288 0.468 98.736 1.00 46.61 C ATOM 6658 CG TYR B 695 32.411 1.024 97.632 1.00 46.85 C ATOM 6659 CD1 TYR B 695 32.036 2.372 97.614 1.00 46.66 C ATOM 6660 CD2 TYR B 695 31.969 0.205 96.591 1.00 46.80 C ATOM 6661 CE1 TYR B 695 31.239 2.883 96.594 1.00 46.55 C ATOM 6662 CE2 TYR B 695 31.174 0.708 95.565 1.00 46.44 C ATOM 6663 CZ TYR B 695 30.811 2.043 95.573 1.00 46.56 C ATOM 6664 OH TYR B 695 30.021 2.534 94.556 1.00 46.37 O ATOM 6665 N VAL B 696 30.654 0.094 101.359 1.00 46.56 N ATOM 6666 CA VAL B 696 29.424 −0.600 101.739 1.00 46.60 C ATOM 6667 C VAL B 696 28.543 0.382 102.527 1.00 46.71 C ATOM 6668 O VAL B 696 29.032 1.412 103.002 1.00 46.77 O ATOM 6669 CB VAL B 696 29.740 −1.882 102.567 1.00 46.48 C ATOM 6670 CG1 VAL B 696 30.425 −1.532 103.894 1.00 46.68 C ATOM 6671 CG2 VAL B 696 28.487 −2.728 102.791 1.00 46.48 C ATOM 6672 N GLN B 697 27.253 0.079 102.648 1.00 46.86 N ATOM 6673 CA GLN B 697 26.334 0.933 103.402 1.00 47.10 C ATOM 6674 C GLN B 697 26.653 0.947 104.902 1.00 47.33 C ATOM 6675 O GLN B 697 27.111 −0.050 105.467 1.00 47.16 O ATOM 6676 CB GLN B 697 24.883 0.509 103.149 1.00 47.03 C ATOM 6677 CG GLN B 697 23.803 1.352 103.830 1.00 46.80 C ATOM 6678 CD GLN B 697 23.380 0.792 105.181 1.00 46.92 C ATOM 6679 OE1 GLN B 697 23.952 −0.184 105.671 1.00 47.39 O ATOM 6680 NE2 GLN B 697 22.376 1.410 105.789 1.00 46.50 N ATOM 6681 N MET B 698 26.400 2.094 105.525 1.00 47.73 N ATOM 6682 CA MET B 698 26.601 2.290 106.957 1.00 48.22 C ATOM 6683 C MET B 698 25.335 2.856 107.610 1.00 48.47 C ATOM 6684 O MET B 698 24.393 3.229 106.914 1.00 48.55 O ATOM 6685 CB MET B 698 27.797 3.215 107.196 1.00 48.21 C ATOM 6686 CG MET B 698 27.680 4.581 106.536 1.00 48.18 C ATOM 6687 SD MET B 698 29.260 5.427 106.401 1.00 48.35 S ATOM 6688 CE MET B 698 30.082 4.435 105.156 1.00 48.55 C ATOM 6689 N SER B 699 25.320 2.916 108.941 1.00 48.82 N ATOM 6690 CA SER B 699 24.168 3.426 109.686 1.00 49.15 C ATOM 6691 C SER B 699 24.617 4.254 110.883 1.00 49.42 C ATOM 6692 O SER B 699 25.491 3.832 111.633 1.00 49.46 O ATOM 6693 CB SER B 699 23.287 2.265 110.145 1.00 49.06 C ATOM 6694 OG SER B 699 22.249 2.701 110.999 1.00 49.17 O ATOM 6695 N ALA B 700 24.015 5.428 111.058 1.00 49.81 N ATOM 6696 CA ALA B 700 24.365 6.318 112.167 1.00 50.38 C ATOM 6697 C ALA B 700 23.153 6.959 112.839 1.00 50.88 C ATOM 6698 O ALA B 700 22.199 7.353 112.169 1.00 50.91 O ATOM 6699 CB ALA B 700 25.327 7.389 111.705 1.00 50.29 C ATOM 6700 N ILE B 701 23.208 7.069 114.166 1.00 51.54 N ATOM 6701 CA ILE B 701 22.137 7.698 114.943 1.00 52.16 C ATOM 6702 C ILE B 701 22.662 8.664 116.003 1.00 52.73 C ATOM 6703 O ILE B 701 23.728 8.444 116.589 1.00 52.70 O ATOM 6704 CB ILE B 701 21.206 6.661 115.624 1.00 52.19 C ATOM 6705 CG1 ILE B 701 22.023 5.538 116.278 1.00 52.01 C ATOM 6706 CG2 ILE B 701 20.175 6.122 114.624 1.00 52.08 C ATOM 6707 CD1 ILE B 701 21.279 4.785 117.361 1.00 52.16 C ATOM 6708 N HIS B 702 21.904 9.736 116.231 1.00 53.42 N ATOM 6709 CA HIS B 702 22.162 10.658 117.334 1.00 54.11 C ATOM 6710 C HIS B 702 21.631 10.068 118.641 1.00 54.67 C ATOM 6711 O HIS B 702 20.560 9.451 118.664 1.00 54.71 O ATOM 6712 CB HIS B 702 21.509 12.017 117.071 1.00 54.06 C ATOM 6713 CG HIS B 702 21.893 13.069 118.064 1.00 54.05 C ATOM 6714 ND1 HIS B 702 21.279 13.194 119.292 1.00 53.95 N ATOM 6715 CD2 HIS B 702 22.840 14.036 118.017 1.00 54.05 C ATOM 6716 CE1 HIS B 702 21.829 14.194 119.957 1.00 54.15 C ATOM 6717 NE2 HIS B 702 22.775 14.725 119.203 1.00 54.50 N ATOM 6718 N THR B 703 22.383 10.268 119.724 1.00 55.41 N ATOM 6719 CA THR B 703 22.007 9.746 121.042 1.00 56.13 C ATOM 6720 C THR B 703 22.635 10.517 122.213 1.00 56.76 C ATOM 6721 O THR B 703 23.855 10.642 122.311 1.00 56.73 O ATOM 6722 CB THR B 703 22.319 8.221 121.171 1.00 56.04 C ATOM 6723 OG1 THR B 703 21.857 7.737 122.437 1.00 55.79 O ATOM 6724 CG2 THR B 703 23.818 7.933 121.025 1.00 55.96 C ATOM 6725 N MET B 704 21.787 11.035 123.096 1.00 57.51 N ATOM 6726 CA MET B 704 22.254 11.661 124.326 1.00 58.37 C ATOM 6727 C MET B 704 22.429 10.590 125.394 1.00 58.99 C ATOM 6728 O MET B 704 21.593 9.685 125.516 1.00 59.21 O ATOM 6729 CB MET B 704 21.250 12.706 124.818 1.00 58.36 C ATOM 6730 CG MET B 704 20.936 13.808 123.825 1.00 58.63 C ATOM 6731 SD MET B 704 22.359 14.854 123.507 1.00 59.47 S ATOM 6732 CE MET B 704 22.411 15.839 125.008 1.00 59.89 C ATOM 6733 N HIS B 705 23.516 10.685 126.156 1.00 59.62 N ATOM 6734 CA HIS B 705 23.681 9.861 127.355 1.00 60.26 C ATOM 6735 C HIS B 705 24.406 10.597 128.479 1.00 60.65 C ATOM 6736 O HIS B 705 25.639 10.690 128.485 1.00 60.55 O ATOM 6737 CB HIS B 705 24.378 8.534 127.051 1.00 60.24 C ATOM 6738 CG HIS B 705 24.394 7.594 128.215 1.00 60.57 C ATOM 6739 ND1 HIS B 705 25.383 7.617 129.175 1.00 60.95 N ATOM 6740 CD2 HIS B 705 23.529 6.622 128.587 1.00 60.91 C ATOM 6741 CE1 HIS B 705 25.133 6.690 130.083 1.00 61.08 C ATOM 6742 NE2 HIS B 705 24.013 6.073 129.750 1.00 61.23 N ATOM 6743 N GLU B 706 23.614 11.120 129.417 1.00 61.19 N ATOM 6744 CA GLU B 706 24.100 11.853 130.597 1.00 61.71 C ATOM 6745 C GLU B 706 24.848 13.154 130.291 1.00 61.98 C ATOM 6746 O GLU B 706 24.784 14.099 131.079 1.00 62.09 O ATOM 6747 CB GLU B 706 24.942 10.946 131.507 1.00 61.68 C ATOM 6748 CG GLU B 706 24.125 9.945 132.321 1.00 61.83 C ATOM 6749 CD GLU B 706 24.974 8.842 132.935 1.00 61.83 C ATOM 6750 OE1 GLU B 706 26.216 8.990 132.982 1.00 61.80 O ATOM 6751 OE2 GLU B 706 24.397 7.821 133.370 1.00 61.73 O ATOM 6752 N GLY B 707 25.549 13.202 129.158 1.00 62.30 N ATOM 6753 CA GLY B 707 26.339 14.372 128.774 1.00 62.54 C ATOM 6754 C GLY B 707 26.142 14.778 127.328 1.00 62.70 C ATOM 6755 O GLY B 707 25.012 14.825 126.838 1.00 62.82 O ATOM 6756 N LYS B 708 27.250 15.068 126.649 1.00 62.79 N ATOM 6757 CA LYS B 708 27.236 15.510 125.249 1.00 62.81 C ATOM 6758 C LYS B 708 28.391 14.902 124.437 1.00 62.61 C ATOM 6759 O LYS B 708 29.539 14.899 124.896 1.00 62.60 O ATOM 6760 CB LYS B 708 27.285 17.044 125.160 1.00 62.85 C ATOM 6761 CG LYS B 708 25.924 17.724 125.198 1.00 63.02 C ATOM 6762 CD LYS B 708 26.020 19.185 124.770 1.00 63.09 C ATOM 6763 CE LYS B 708 24.637 19.814 124.639 1.00 63.33 C ATOM 6764 NZ LYS B 708 24.703 21.300 124.602 1.00 63.21 N ATOM 6765 N GLU B 709 28.104 14.399 123.231 1.00 62.27 N ATOM 6766 CA GLU B 709 26.768 14.425 122.622 1.00 61.76 C ATOM 6767 C GLU B 709 26.448 13.080 121.965 1.00 61.33 C ATOM 6768 O GLU B 709 25.286 12.692 121.880 1.00 61.32 O ATOM 6769 CB GLU B 709 26.670 15.577 121.613 1.00 61.85 C ATOM 6770 CG GLU B 709 25.275 15.878 121.068 1.00 61.87 C ATOM 6771 CD GLU B 709 25.243 17.133 120.202 1.00 61.81 C ATOM 6772 OE1 GLU B 709 25.532 18.232 120.724 1.00 62.07 O ATOM 6773 OE2 GLU B 709 24.925 17.022 119.000 1.00 61.61 O ATOM 6774 N TYR B 710 27.492 12.399 121.490 1.00 60.80 N ATOM 6775 CA TYR B 710 27.452 10.983 121.057 1.00 60.34 C ATOM 6776 C TYR B 710 26.693 10.627 119.764 1.00 59.96 C ATOM 6777 O TYR B 710 25.506 10.937 119.603 1.00 59.88 O ATOM 6778 CB TYR B 710 27.041 10.052 122.214 1.00 60.39 C ATOM 6779 CG TYR B 710 27.845 10.271 123.478 1.00 60.52 C ATOM 6780 CD1 TYR B 710 29.191 9.910 123.539 1.00 60.55 C ATOM 6781 CD2 TYR B 710 27.264 10.848 124.610 1.00 60.28 C ATOM 6782 CE1 TYR B 710 29.939 10.117 124.691 1.00 60.71 C ATOM 6783 CE2 TYR B 710 28.004 11.058 125.770 1.00 60.42 C ATOM 6784 CZ TYR B 710 29.341 10.690 125.802 1.00 60.69 C ATOM 6785 OH TYR B 710 30.090 10.887 126.939 1.00 60.73 O ATOM 6786 N ILE B 711 27.414 9.965 118.857 1.00 59.38 N ATOM 6787 CA ILE B 711 26.844 9.346 117.657 1.00 58.85 C ATOM 6788 C ILE B 711 27.340 7.905 117.548 1.00 58.59 C ATOM 6789 O ILE B 711 28.527 7.632 117.742 1.00 58.36 O ATOM 6790 CB ILE B 711 27.211 10.121 116.356 1.00 58.88 C ATOM 6791 CG1 ILE B 711 26.386 11.408 116.239 1.00 58.70 C ATOM 6792 CG2 ILE B 711 27.004 9.241 115.114 1.00 58.41 C ATOM 6793 CD1 ILE B 711 26.898 12.380 115.190 1.00 58.71 C ATOM 6794 N ILE B 712 26.421 6.993 117.244 1.00 58.32 N ATOM 6795 CA ILE B 712 26.765 5.600 116.983 1.00 58.12 C ATOM 6796 C ILE B 712 26.770 5.344 115.476 1.00 57.91 C ATOM 6797 O ILE B 712 25.771 5.576 114.798 1.00 57.71 O ATOM 6798 CB ILE B 712 25.779 4.624 117.677 1.00 58.19 C ATOM 6799 CG1 ILE B 712 25.626 4.970 119.165 1.00 58.34 C ATOM 6800 CG2 ILE B 712 26.238 3.176 117.495 1.00 57.99 C ATOM 6801 CD1 ILE B 712 24.405 4.354 119.835 1.00 58.23 C ATOM 6802 N LEU B 713 27.905 4.872 114.966 1.00 57.78 N ATOM 6803 CA LEU B 713 28.052 4.523 113.554 1.00 57.79 C ATOM 6804 C LEU B 713 28.383 3.039 113.428 1.00 57.75 C ATOM 6805 O LEU B 713 29.301 2.548 114.085 1.00 57.73 O ATOM 6806 CB LEU B 713 29.141 5.391 112.896 1.00 57.79 C ATOM 6807 CG LEU B 713 29.387 5.480 111.375 1.00 57.69 C ATOM 6808 CD1 LEU B 713 30.290 4.371 110.844 1.00 57.58 C ATOM 6809 CD2 LEU B 713 28.097 5.543 110.568 1.00 57.11 C ATOM 6810 N SER B 714 27.634 2.330 112.588 1.00 57.80 N ATOM 6811 CA SER B 714 27.839 0.895 112.409 1.00 57.91 C ATOM 6812 C SER B 714 27.999 0.491 110.945 1.00 58.00 C ATOM 6813 O SER B 714 27.213 0.898 110.087 1.00 58.03 O ATOM 6814 CB SER B 714 26.699 0.108 113.058 1.00 57.92 C ATOM 6815 OG SER B 714 26.924 −1.287 112.953 1.00 57.82 O ATOM 6816 N ASN B 715 29.024 −0.317 110.681 1.00 58.16 N ATOM 6817 CA ASN B 715 29.313 −0.846 109.341 1.00 58.35 C ATOM 6818 C ASN B 715 30.270 −2.043 109.395 1.00 58.46 C ATOM 6819 O ASN B 715 30.509 −2.602 110.469 1.00 58.48 O ATOM 6820 CB ASN B 715 29.873 0.255 108.425 1.00 58.29 C ATOM 6821 CG ASN B 715 31.113 0.925 108.997 1.00 58.20 C ATOM 6822 OD1 ASN B 715 31.373 0.872 110.200 1.00 58.26 O ATOM 6823 ND2 ASN B 715 31.883 1.568 108.130 1.00 58.20 N ATOM 6824 N ALA B 716 30.808 −2.433 108.241 1.00 58.59 N ATOM 6825 CA ALA B 716 31.773 −3.532 108.164 1.00 58.75 C ATOM 6826 C ALA B 716 33.139 −3.132 108.720 1.00 58.91 C ATOM 6827 O ALA B 716 33.450 −1.946 108.836 1.00 58.89 O ATOM 6828 CB ALA B 716 31.908 −4.023 106.733 1.00 58.73 C ATOM 6829 N GLY B 717 33.947 −4.133 109.064 1.00 59.14 N ATOM 6830 CA GLY B 717 35.292 −3.910 109.591 1.00 59.31 C ATOM 6831 C GLY B 717 36.376 −4.089 108.548 1.00 59.45 C ATOM 6832 O GLY B 717 37.346 −3.327 108.516 1.00 59.35 O ATOM 6833 N GLY B 718 36.212 −5.099 107.698 1.00 59.62 N ATOM 6834 CA GLY B 718 37.176 −5.382 106.643 1.00 60.03 C ATOM 6835 C GLY B 718 38.308 −6.287 107.095 1.00 60.40 C ATOM 6836 O GLY B 718 38.376 −6.646 108.275 1.00 60.33 O ATOM 6837 N PRO B 719 39.202 −6.675 106.158 1.00 60.70 N ATOM 6838 CA PRO B 719 39.130 −6.334 104.731 1.00 60.93 C ATOM 6839 C PRO B 719 38.054 −7.156 104.016 1.00 61.10 C ATOM 6840 O PRO B 719 37.949 −8.363 104.248 1.00 61.35 O ATOM 6841 CB PRO B 719 40.526 −6.696 104.213 1.00 60.96 C ATOM 6842 CG PRO B 719 40.992 −7.788 105.118 1.00 60.96 C ATOM 6843 CD PRO B 719 40.387 −7.501 106.469 1.00 60.75 C ATOM 6844 N LYS B 720 37.281 −6.497 103.151 1.00 61.04 N ATOM 6845 CA LYS B 720 36.070 −7.065 102.524 1.00 60.92 C ATOM 6846 C LYS B 720 34.853 −6.882 103.435 1.00 60.78 C ATOM 6847 O LYS B 720 34.971 −6.344 104.539 1.00 60.76 O ATOM 6848 CB LYS B 720 36.240 −8.540 102.126 1.00 60.94 C ATOM 6849 CG LYS B 720 37.156 −8.776 100.937 1.00 61.13 C ATOM 6850 CD LYS B 720 37.226 −10.253 100.600 1.00 61.22 C ATOM 6851 CE LYS B 720 38.261 −10.527 99.527 1.00 61.31 C ATOM 6852 NZ LYS B 720 38.410 −11.986 99.282 1.00 61.29 N ATOM 6853 N ARG B 721 33.687 −7.321 102.967 1.00 60.62 N ATOM 6854 CA ARG B 721 32.445 −7.133 103.716 1.00 60.51 C ATOM 6855 C ARG B 721 32.330 −8.107 104.881 1.00 60.46 C ATOM 6856 O ARG B 721 31.655 −9.132 104.790 1.00 60.48 O ATOM 6857 CB ARG B 721 31.226 −7.186 102.788 1.00 60.41 C ATOM 6858 CG ARG B 721 30.940 −5.838 102.154 1.00 60.07 C ATOM 6859 CD ARG B 721 30.137 −5.935 100.879 1.00 59.58 C ATOM 6860 NE ARG B 721 30.076 −4.631 100.224 1.00 59.13 N ATOM 6861 CZ ARG B 721 29.298 −4.333 99.189 1.00 58.61 C ATOM 6862 NH1 ARG B 721 28.492 −5.245 98.664 1.00 58.43 N ATOM 6863 NH2 ARG B 721 29.328 −3.110 98.682 1.00 58.56 N ATOM 6864 N GLU B 722 32.999 −7.756 105.976 1.00 60.42 N ATOM 6865 CA GLU B 722 33.148 −8.635 107.129 1.00 60.43 C ATOM 6866 C GLU B 722 33.359 −7.852 108.422 1.00 60.46 C ATOM 6867 O GLU B 722 33.761 −6.687 108.393 1.00 60.26 O ATOM 6868 CB GLU B 722 34.322 −9.594 106.910 1.00 60.38 C ATOM 6869 CG GLU B 722 35.670 −8.895 106.746 1.00 60.46 C ATOM 6870 CD GLU B 722 36.766 −9.826 106.282 1.00 60.44 C ATOM 6871 OE1 GLU B 722 36.515 −10.651 105.378 1.00 60.64 O ATOM 6872 OE2 GLU B 722 37.890 −9.719 106.811 1.00 60.27 O ATOM 6873 N ASN B 723 33.091 −8.523 109.545 1.00 60.59 N ATOM 6874 CA ASN B 723 33.310 −7.996 110.899 1.00 60.69 C ATOM 6875 C ASN B 723 32.506 −6.755 111.246 1.00 60.74 C ATOM 6876 O ASN B 723 33.003 −5.632 111.155 1.00 60.70 O ATOM 6877 CB ASN B 723 34.802 −7.785 111.189 1.00 60.73 C ATOM 6878 CG ASN B 723 35.481 −9.044 111.689 1.00 61.05 C ATOM 6879 OD1 ASN B 723 35.288 −10.133 111.141 1.00 61.50 O ATOM 6880 ND2 ASN B 723 36.284 −8.901 112.739 1.00 61.14 N ATOM 6881 N GLY B 724 31.260 −6.972 111.652 1.00 60.89 N ATOM 6882 CA GLY B 724 30.391 −5.890 112.090 1.00 61.13 C ATOM 6883 C GLY B 724 31.039 −5.090 113.196 1.00 61.34 C ATOM 6884 O GLY B 724 31.373 −5.630 114.249 1.00 61.27 O ATOM 6885 N MET B 725 31.239 −3.803 112.938 1.00 61.57 N ATOM 6886 CA MET B 725 31.824 −2.905 113.922 1.00 61.81 C ATOM 6887 C MET B 725 30.804 −1.873 114.366 1.00 61.78 C ATOM 6888 O MET B 725 29.976 −1.425 113.573 1.00 61.89 O ATOM 6889 CB MET B 725 33.062 −2.201 113.359 1.00 61.93 C ATOM 6890 CG MET B 725 34.235 −3.121 113.023 1.00 62.55 C ATOM 6891 SD MET B 725 34.854 −4.102 114.409 1.00 64.24 S ATOM 6892 CE MET B 725 35.431 −2.822 115.522 1.00 63.96 C ATOM 6893 N VAL B 726 30.862 −1.515 115.643 1.00 61.79 N ATOM 6894 CA VAL B 726 30.067 −0.417 116.173 1.00 61.79 C ATOM 6895 C VAL B 726 31.008 0.626 116.775 1.00 61.78 C ATOM 6896 O VAL B 726 31.727 0.353 117.741 1.00 61.78 O ATOM 6897 CB VAL B 726 29.010 −0.904 117.194 1.00 61.81 C ATOM 6898 CG1 VAL B 726 28.343 0.270 117.888 1.00 61.82 C ATOM 6899 CG2 VAL B 726 27.961 −1.759 116.500 1.00 61.82 C ATOM 6900 N HIS B 727 31.001 1.814 116.176 1.00 61.75 N ATOM 6901 CA HIS B 727 31.914 2.892 116.543 1.00 61.70 C ATOM 6902 C HIS B 727 31.177 3.966 117.335 1.00 61.65 C ATOM 6903 O HIS B 727 30.006 4.241 117.069 1.00 61.62 O ATOM 6904 CB HIS B 727 32.529 3.525 115.286 1.00 61.70 C ATOM 6905 CG HIS B 727 33.017 2.536 114.269 1.00 61.83 C ATOM 6906 ND1 HIS B 727 34.345 2.186 114.147 1.00 61.83 N ATOM 6907 CD2 HIS B 727 32.358 1.844 113.309 1.00 61.77 C ATOM 6908 CE1 HIS B 727 34.481 1.311 113.167 1.00 61.62 C ATOM 6909 NE2 HIS B 727 33.290 1.087 112.641 1.00 61.74 N ATOM 6910 N LEU B 728 31.861 4.572 118.303 1.00 61.63 N ATOM 6911 CA LEU B 728 31.282 5.683 119.063 1.00 61.70 C ATOM 6912 C LEU B 728 32.142 6.944 118.971 1.00 61.77 C ATOM 6913 O LEU B 728 33.371 6.875 119.052 1.00 61.76 O ATOM 6914 CB LEU B 728 31.039 5.294 120.529 1.00 61.71 C ATOM 6915 CG LEU B 728 30.180 6.240 121.390 1.00 61.73 C ATOM 6916 CD1 LEU B 728 28.694 6.136 121.053 1.00 61.40 C ATOM 6917 CD2 LEU B 728 30.400 5.989 122.875 1.00 61.68 C ATOM 6918 N ALA B 729 31.477 8.087 118.799 1.00 61.78 N ATOM 6919 CA ALA B 729 32.139 9.385 118.687 1.00 61.82 C ATOM 6920 C ALA B 729 31.570 10.401 119.673 1.00 61.88 C ATOM 6921 O ALA B 729 30.369 10.407 119.949 1.00 61.81 O ATOM 6922 CB ALA B 729 32.017 9.917 117.269 1.00 61.81 C ATOM 6923 N ARG B 730 32.439 11.261 120.195 1.00 61.94 N ATOM 6924 CA ARG B 730 32.012 12.344 121.076 1.00 62.07 C ATOM 6925 C ARG B 730 31.808 13.614 120.258 1.00 61.97 C ATOM 6926 O ARG B 730 32.750 14.154 119.670 1.00 61.81 O ATOM 6927 CB ARG B 730 33.028 12.570 122.202 1.00 62.10 C ATOM 6928 CG ARG B 730 32.488 13.346 123.404 1.00 62.57 C ATOM 6929 CD ARG B 730 33.254 12.995 124.684 1.00 63.51 C ATOM 6930 NE ARG B 730 34.665 13.388 124.623 1.00 64.43 N ATOM 6931 CZ ARG B 730 35.649 12.793 125.296 1.00 64.75 C ATOM 6932 NH1 ARG B 730 35.399 11.756 126.092 1.00 64.77 N ATOM 6933 NH2 ARG B 730 36.893 13.233 125.166 1.00 64.62 N ATOM 6934 N VAL B 731 30.564 14.075 120.219 1.00 61.92 N ATOM 6935 CA VAL B 731 30.217 15.258 119.451 1.00 61.94 C ATOM 6936 C VAL B 731 30.621 16.521 120.205 1.00 62.04 C ATOM 6937 O VAL B 731 30.004 16.904 121.202 1.00 61.96 O ATOM 6938 CB VAL B 731 28.716 15.286 119.076 1.00 61.93 C ATOM 6939 CG1 VAL B 731 28.384 16.526 118.253 1.00 61.80 C ATOM 6940 CG2 VAL B 731 28.326 14.019 118.322 1.00 61.65 C ATOM 6941 N GLU B 732 31.677 17.154 119.711 1.00 62.29 N ATOM 6942 CA GLU B 732 32.150 18.421 120.246 1.00 62.59 C ATOM 6943 C GLU B 732 31.208 19.561 119.868 1.00 62.59 C ATOM 6944 O GLU B 732 30.276 19.376 119.087 1.00 62.58 O ATOM 6945 CB GLU B 732 33.572 18.697 119.764 1.00 62.67 C ATOM 6946 CG GLU B 732 34.572 17.648 120.217 1.00 63.34 C ATOM 6947 CD GLU B 732 35.929 18.239 120.519 1.00 64.65 C ATOM 6948 OE1 GLU B 732 36.452 18.999 119.671 1.00 65.52 O ATOM 6949 OE2 GLU B 732 36.469 17.946 121.608 1.00 64.38 O ATOM 6950 N GLU B 733 31.459 20.740 120.420 1.00 62.71 N ATOM 6951 CA GLU B 733 30.505 21.846 120.330 1.00 62.97 C ATOM 6952 C GLU B 733 30.586 22.656 119.028 1.00 62.90 C ATOM 6953 O GLU B 733 29.692 23.456 118.735 1.00 62.88 O ATOM 6954 CB GLU B 733 30.653 22.762 121.554 1.00 62.94 C ATOM 6955 CG GLU B 733 30.468 22.032 122.892 1.00 63.26 C ATOM 6956 CD GLU B 733 30.498 22.957 124.103 1.00 63.31 C ATOM 6957 OE1 GLU B 733 31.237 23.968 124.086 1.00 63.48 O ATOM 6958 OE2 GLU B 733 29.781 22.659 125.083 1.00 63.64 O ATOM 6959 N ASN B 734 31.631 22.415 118.237 1.00 62.89 N ATOM 6960 CA ASN B 734 31.982 23.297 117.112 1.00 62.75 C ATOM 6961 C ASN B 734 31.400 23.072 115.694 1.00 62.72 C ATOM 6962 O ASN B 734 31.341 24.030 114.922 1.00 62.86 O ATOM 6963 CB ASN B 734 33.504 23.494 117.033 1.00 62.76 C ATOM 6964 CG ASN B 734 34.255 22.197 116.808 1.00 62.54 C ATOM 6965 OD1 ASN B 734 33.923 21.157 117.381 1.00 62.40 O ATOM 6966 ND2 ASN B 734 35.289 22.258 115.980 1.00 62.05 N ATOM 6967 N GLY B 735 30.983 21.857 115.319 1.00 62.55 N ATOM 6968 CA GLY B 735 31.012 20.654 116.142 1.00 62.34 C ATOM 6969 C GLY B 735 31.604 19.458 115.420 1.00 62.23 C ATOM 6970 O GLY B 735 30.898 18.728 114.718 1.00 62.11 O ATOM 6971 N GLU B 736 32.909 19.262 115.596 1.00 62.12 N ATOM 6972 CA GLU B 736 33.599 18.085 115.078 1.00 62.02 C ATOM 6973 C GLU B 736 33.209 16.866 115.913 1.00 61.88 C ATOM 6974 O GLU B 736 32.333 16.951 116.775 1.00 61.83 O ATOM 6975 CB GLU B 736 35.117 18.294 115.117 1.00 62.03 C ATOM 6976 CG GLU B 736 35.884 17.493 114.066 1.00 62.32 C ATOM 6977 CD GLU B 736 37.321 17.197 114.468 1.00 62.41 C ATOM 6978 OE1 GLU B 736 37.556 16.771 115.621 1.00 62.40 O ATOM 6979 OE2 GLU B 736 38.218 17.378 113.618 1.00 62.24 O ATOM 6980 N LEU B 737 33.852 15.734 115.651 1.00 61.85 N ATOM 6981 CA LEU B 737 33.625 14.527 116.437 1.00 61.91 C ATOM 6982 C LEU B 737 34.904 13.711 116.605 1.00 61.98 C ATOM 6983 O LEU B 737 35.623 13.453 115.639 1.00 61.98 O ATOM 6984 CB LEU B 737 32.485 13.686 115.846 1.00 61.91 C ATOM 6985 CG LEU B 737 32.399 13.475 114.333 1.00 61.99 C ATOM 6986 CD1 LEU B 737 33.036 12.155 113.935 1.00 62.32 C ATOM 6987 CD2 LEU B 737 30.953 13.500 113.891 1.00 62.27 C ATOM 6988 N THR B 738 35.187 13.334 117.850 1.00 62.13 N ATOM 6989 CA THR B 738 36.357 12.519 118.184 1.00 62.11 C ATOM 6990 C THR B 738 35.913 11.110 118.577 1.00 62.06 C ATOM 6991 O THR B 738 35.059 10.932 119.452 1.00 62.02 O ATOM 6992 CB THR B 738 37.211 13.163 119.312 1.00 62.12 C ATOM 6993 OG1 THR B 738 36.377 13.481 120.433 1.00 61.84 O ATOM 6994 CG2 THR B 738 37.893 14.441 118.814 1.00 62.01 C ATOM 6995 N TRP B 739 36.486 10.114 117.910 1.00 62.02 N ATOM 6996 CA TRP B 739 36.080 8.726 118.102 1.00 62.02 C ATOM 6997 C TRP B 739 36.667 8.142 119.381 1.00 62.17 C ATOM 6998 O TRP B 739 37.818 8.416 119.731 1.00 62.10 O ATOM 6999 CB TRP B 739 36.452 7.885 116.877 1.00 61.95 C ATOM 7000 CG TRP B 739 35.720 8.340 115.649 1.00 61.87 C ATOM 7001 CD1 TRP B 739 36.168 9.218 114.707 1.00 61.77 C ATOM 7002 CD2 TRP B 739 34.392 7.968 115.252 1.00 61.81 C ATOM 7003 NE1 TRP B 739 35.210 9.408 113.739 1.00 61.71 N ATOM 7004 CE2 TRP B 739 34.109 8.653 114.049 1.00 61.69 C ATOM 7005 CE3 TRP B 739 33.417 7.115 115.790 1.00 61.61 C ATOM 7006 CZ2 TRP B 739 32.891 8.514 113.375 1.00 61.61 C ATOM 7007 CZ3 TRP B 739 32.202 6.982 115.120 1.00 61.71 C ATOM 7008 CH2 TRP B 739 31.954 7.675 113.923 1.00 61.74 C ATOM 7009 N LEU B 740 35.859 7.348 120.081 1.00 62.27 N ATOM 7010 CA LEU B 740 36.251 6.793 121.371 1.00 62.32 C ATOM 7011 C LEU B 740 36.641 5.323 121.262 1.00 62.45 C ATOM 7012 O LEU B 740 37.805 4.970 121.456 1.00 62.46 O ATOM 7013 CB LEU B 740 35.142 6.997 122.414 1.00 62.29 C ATOM 7014 CG LEU B 740 34.636 8.421 122.703 1.00 62.17 C ATOM 7015 CD1 LEU B 740 33.593 8.395 123.814 1.00 61.97 C ATOM 7016 CD2 LEU B 740 35.762 9.391 123.057 1.00 61.76 C ATOM 7017 N LYS B 741 35.672 4.472 120.942 1.00 62.65 N ATOM 7018 CA LYS B 741 35.924 3.040 120.824 1.00 62.95 C ATOM 7019 C LYS B 741 35.221 2.420 119.616 1.00 63.04 C ATOM 7020 O LYS B 741 34.161 2.891 119.188 1.00 63.11 O ATOM 7021 CB LYS B 741 35.535 2.310 122.117 1.00 63.00 C ATOM 7022 CG LYS B 741 36.479 2.580 123.290 1.00 63.30 C ATOM 7023 CD LYS B 741 36.304 1.575 124.417 1.00 63.71 C ATOM 7024 CE LYS B 741 37.329 1.805 125.520 1.00 63.90 C ATOM 7025 NZ LYS B 741 37.254 0.762 126.586 1.00 64.23 N ATOM 7026 N HIS B 742 35.834 1.371 119.071 1.00 63.10 N ATOM 7027 CA HIS B 742 35.277 0.615 117.950 1.00 63.14 C ATOM 7028 C HIS B 742 35.162 −0.852 118.360 1.00 63.04 C ATOM 7029 O HIS B 742 36.174 −1.539 118.518 1.00 63.14 O ATOM 7030 CB HIS B 742 36.162 0.750 116.701 1.00 63.17 C ATOM 7031 CG HIS B 742 36.831 2.085 116.566 1.00 63.59 C ATOM 7032 ND1 HIS B 742 38.203 2.231 116.549 1.00 63.88 N ATOM 7033 CD2 HIS B 742 36.320 3.334 116.447 1.00 63.85 C ATOM 7034 CE1 HIS B 742 38.507 3.511 116.422 1.00 64.00 C ATOM 7035 NE2 HIS B 742 37.382 4.202 116.358 1.00 64.10 N ATOM 7036 N ASN B 743 33.931 −1.327 118.531 1.00 62.92 N ATOM 7037 CA ASN B 743 33.696 −2.658 119.089 1.00 62.87 C ATOM 7038 C ASN B 743 32.994 −3.609 118.125 1.00 62.73 C ATOM 7039 O ASN B 743 31.950 −3.266 117.568 1.00 62.71 O ATOM 7040 CB ASN B 743 32.888 −2.567 120.387 1.00 62.94 C ATOM 7041 CG ASN B 743 33.136 −1.278 121.144 1.00 63.17 C ATOM 7042 OD1 ASN B 743 32.253 −0.425 121.238 1.00 63.68 O ATOM 7043 ND2 ASN B 743 34.341 −1.125 121.682 1.00 63.37 N ATOM 7044 N PRO B 744 33.568 −4.811 117.930 1.00 62.64 N ATOM 7045 CA PRO B 744 32.964 −5.838 117.080 1.00 62.52 C ATOM 7046 C PRO B 744 31.626 −6.329 117.627 1.00 62.40 C ATOM 7047 O PRO B 744 31.530 −6.730 118.786 1.00 62.46 O ATOM 7048 CB PRO B 744 34.003 −6.969 117.094 1.00 62.56 C ATOM 7049 CG PRO B 744 35.280 −6.320 117.532 1.00 62.53 C ATOM 7050 CD PRO B 744 34.854 −5.260 118.492 1.00 62.62 C ATOM 7051 N ILE B 745 30.605 −6.284 116.780 1.00 62.27 N ATOM 7052 CA ILE B 745 29.253 −6.694 117.146 1.00 62.14 C ATOM 7053 C ILE B 745 28.898 −8.057 116.525 1.00 61.99 C ATOM 7054 O ILE B 745 28.021 −8.771 117.020 1.00 62.01 O ATOM 7055 CB ILE B 745 28.213 −5.590 116.761 1.00 62.12 C ATOM 7056 CG1 ILE B 745 26.813 −5.933 117.283 1.00 62.17 C ATOM 7057 CG2 ILE B 745 28.213 −5.315 115.249 1.00 62.19 C ATOM 7058 CD1 ILE B 745 25.782 −4.863 117.018 1.00 62.19 C ATOM 7059 N GLN B 746 29.601 −8.407 115.450 1.00 61.84 N ATOM 7060 CA GLN B 746 29.360 −9.639 114.709 1.00 61.70 C ATOM 7061 C GLN B 746 30.625 −10.030 113.952 1.00 61.63 C ATOM 7062 O GLN B 746 31.306 −9.173 113.385 1.00 61.63 O ATOM 7063 CB GLN B 746 28.185 −9.452 113.737 1.00 61.70 C ATOM 7064 CG GLN B 746 27.910 −10.621 112.793 1.00 61.73 C ATOM 7065 CD GLN B 746 27.292 −11.822 113.487 1.00 62.13 C ATOM 7066 OE1 GLN B 746 26.141 −11.781 113.924 1.00 62.00 O ATOM 7067 NE2 GLN B 746 28.053 −12.907 113.577 1.00 62.17 N ATOM 7068 N LYS B 747 30.939 −11.323 113.969 1.00 61.51 N ATOM 7069 CA LYS B 747 32.035 −11.877 113.179 1.00 61.33 C ATOM 7070 C LYS B 747 31.463 −12.577 111.951 1.00 61.06 C ATOM 7071 O LYS B 747 30.262 −12.841 111.887 1.00 60.90 O ATOM 7072 CB LYS B 747 32.875 −12.851 114.011 1.00 61.46 C ATOM 7073 CG LYS B 747 33.632 −12.196 115.156 1.00 61.81 C ATOM 7074 CD LYS B 747 34.425 −13.215 115.951 1.00 62.37 C ATOM 7075 CE LYS B 747 35.035 −12.588 117.192 1.00 62.40 C ATOM 7076 NZ LYS B 747 35.907 −13.551 117.918 1.00 62.72 N ATOM 7077 N GLY B 748 32.327 −12.871 110.982 1.00 60.85 N ATOM 7078 CA GLY B 748 31.896 −13.425 109.699 1.00 60.66 C ATOM 7079 C GLY B 748 31.683 −12.320 108.682 1.00 60.43 C ATOM 7080 O GLY B 748 32.087 −11.176 108.912 1.00 60.36 O ATOM 7081 N GLU B 749 31.050 −12.649 107.557 1.00 60.16 N ATOM 7082 CA GLU B 749 30.782 −11.631 106.544 1.00 59.97 C ATOM 7083 C GLU B 749 29.573 −10.755 106.906 1.00 59.50 C ATOM 7084 O GLU B 749 28.508 −11.259 107.261 1.00 59.47 O ATOM 7085 CB GLU B 749 30.726 −12.211 105.116 1.00 59.97 C ATOM 7086 CG GLU B 749 29.544 −13.110 104.763 1.00 60.25 C ATOM 7087 CD GLU B 749 29.384 −13.292 103.247 1.00 60.47 C ATOM 7088 OE1 GLU B 749 30.031 −12.550 102.472 1.00 60.77 O ATOM 7089 OE2 GLU B 749 28.606 −14.175 102.822 1.00 61.35 O ATOM 7090 N PHE B 750 29.775 −9.441 106.820 1.00 59.03 N ATOM 7091 CA PHE B 750 28.840 −8.435 107.332 1.00 58.65 C ATOM 7092 C PHE B 750 28.756 −7.238 106.372 1.00 58.34 C ATOM 7093 O PHE B 750 29.787 −6.752 105.893 1.00 58.32 O ATOM 7094 CB PHE B 750 29.314 −7.979 108.717 1.00 58.60 C ATOM 7095 CG PHE B 750 28.491 −6.876 109.324 1.00 58.78 C ATOM 7096 CD1 PHE B 750 27.502 −7.167 110.257 1.00 59.05 C ATOM 7097 CD2 PHE B 750 28.722 −5.542 108.988 1.00 58.81 C ATOM 7098 CE1 PHE B 750 26.748 −6.151 110.837 1.00 58.91 C ATOM 7099 CE2 PHE B 750 27.968 −4.523 109.556 1.00 58.72 C ATOM 7100 CZ PHE B 750 26.980 −4.828 110.483 1.00 58.75 C ATOM 7101 N ALA B 751 27.541 −6.751 106.112 1.00 57.83 N ATOM 7102 CA ALA B 751 27.334 −5.688 105.114 1.00 57.47 C ATOM 7103 C ALA B 751 26.444 −4.510 105.560 1.00 57.17 C ATOM 7104 O ALA B 751 26.910 −3.601 106.255 1.00 57.03 O ATOM 7105 CB ALA B 751 26.834 −6.287 103.793 1.00 57.36 C ATOM 7106 N TYR B 752 25.179 −4.529 105.139 1.00 56.95 N ATOM 7107 CA TYR B 752 24.235 −3.437 105.401 1.00 56.77 C ATOM 7108 C TYR B 752 23.599 −3.571 106.782 1.00 56.62 C ATOM 7109 O TYR B 752 23.334 −4.686 107.245 1.00 56.38 O ATOM 7110 CB TYR B 752 23.127 −3.408 104.338 1.00 56.74 C ATOM 7111 CG TYR B 752 23.494 −2.810 102.992 1.00 56.84 C ATOM 7112 CD1 TYR B 752 22.607 −1.957 102.329 1.00 56.71 C ATOM 7113 CD2 TYR B 752 24.712 −3.106 102.369 1.00 57.10 C ATOM 7114 CE1 TYR B 752 22.924 −1.408 101.088 1.00 56.47 C ATOM 7115 CE2 TYR B 752 25.041 −2.556 101.129 1.00 57.01 C ATOM 7116 CZ TYR B 752 24.141 −1.711 100.496 1.00 56.86 C ATOM 7117 OH TYR B 752 24.462 −1.170 99.273 1.00 56.72 O ATOM 7118 N ASN B 753 23.336 −2.430 107.419 1.00 56.39 N ATOM 7119 CA ASN B 753 22.765 −2.396 108.768 1.00 56.22 C ATOM 7120 C ASN B 753 21.921 −1.150 109.040 1.00 56.26 C ATOM 7121 O ASN B 753 22.049 −0.142 108.344 1.00 56.10 O ATOM 7122 CB ASN B 753 23.871 −2.519 109.821 1.00 56.00 C ATOM 7123 CG ASN B 753 24.824 −1.343 109.805 1.00 55.60 C ATOM 7124 OD1 ASN B 753 24.660 −0.398 110.572 1.00 54.87 O ATOM 7125 ND2 ASN B 753 25.822 −1.391 108.918 1.00 55.35 N ATOM 7126 N SER B 754 21.069 −1.231 110.063 1.00 56.41 N ATOM 7127 CA SER B 754 20.231 −0.106 110.479 1.00 56.53 C ATOM 7128 C SER B 754 20.116 −0.019 112.007 1.00 56.77 C ATOM 7129 O SER B 754 19.758 −0.996 112.664 1.00 56.83 O ATOM 7130 CB SER B 754 18.847 −0.210 109.836 1.00 56.40 C ATOM 7131 OG SER B 754 18.108 0.984 110.018 1.00 56.22 O ATOM 7132 N LEU B 755 20.421 1.156 112.558 1.00 57.02 N ATOM 7133 CA LEU B 755 20.419 1.379 114.008 1.00 57.23 C ATOM 7134 C LEU B 755 19.213 2.184 114.490 1.00 57.55 C ATOM 7135 O LEU B 755 18.723 3.068 113.788 1.00 57.64 O ATOM 7136 CB LEU B 755 21.689 2.120 114.435 1.00 57.13 C ATOM 7137 CG LEU B 755 23.074 1.488 114.304 1.00 56.88 C ATOM 7138 CD1 LEU B 755 24.131 2.574 114.389 1.00 56.42 C ATOM 7139 CD2 LEU B 755 23.306 0.440 115.377 1.00 56.80 C ATOM 7140 N GLN B 756 18.754 1.883 115.701 1.00 57.92 N ATOM 7141 CA GLN B 756 17.712 2.669 116.361 1.00 58.32 C ATOM 7142 C GLN B 756 18.018 2.870 117.847 1.00 58.83 C ATOM 7143 O GLN B 756 18.878 2.189 118.411 1.00 58.95 O ATOM 7144 CB GLN B 756 16.335 2.016 116.186 1.00 58.21 C ATOM 7145 CG GLN B 756 15.635 2.357 114.876 1.00 57.48 C ATOM 7146 CD GLN B 756 15.135 3.794 114.818 1.00 56.35 C ATOM 7147 OE1 GLN B 756 14.191 4.168 115.511 1.00 55.68 O ATOM 7148 NE2 GLN B 756 15.765 4.603 113.976 1.00 55.89 N ATOM 7149 N GLU B 757 17.313 3.812 118.468 1.00 59.34 N ATOM 7150 CA GLU B 757 17.431 4.056 119.900 1.00 59.81 C ATOM 7151 C GLU B 757 16.196 3.488 120.593 1.00 60.24 C ATOM 7152 O GLU B 757 15.075 3.942 120.346 1.00 60.28 O ATOM 7153 CB GLU B 757 17.575 5.555 120.168 1.00 59.77 C ATOM 7154 CG GLU B 757 18.000 5.912 121.582 1.00 59.87 C ATOM 7155 CD GLU B 757 18.594 7.310 121.691 1.00 59.84 C ATOM 7156 OE1 GLU B 757 18.462 8.112 120.741 1.00 59.98 O ATOM 7157 OE2 GLU B 757 19.202 7.607 122.737 1.00 59.50 O ATOM 7158 N LEU B 758 16.406 2.490 121.452 1.00 60.77 N ATOM 7159 CA LEU B 758 15.301 1.778 122.104 1.00 61.20 C ATOM 7160 C LEU B 758 14.868 2.397 123.433 1.00 61.45 C ATOM 7161 O LEU B 758 13.864 1.984 124.014 1.00 61.53 O ATOM 7162 CB LEU B 758 15.644 0.292 122.301 1.00 61.21 C ATOM 7163 CG LEU B 758 16.190 −0.545 121.134 1.00 61.35 C ATOM 7164 CD1 LEU B 758 16.378 −1.988 121.573 1.00 61.47 C ATOM 7165 CD2 LEU B 758 15.306 −0.481 119.893 1.00 61.11 C ATOM 7166 N GLY B 759 15.617 3.394 123.902 1.00 61.82 N ATOM 7167 CA GLY B 759 15.363 4.007 125.203 1.00 62.18 C ATOM 7168 C GLY B 759 16.062 3.233 126.304 1.00 62.50 C ATOM 7169 O GLY B 759 16.580 2.140 126.063 1.00 62.53 O ATOM 7170 N ASN B 760 16.070 3.798 127.513 1.00 62.82 N ATOM 7171 CA ASN B 760 16.780 3.221 128.671 1.00 63.15 C ATOM 7172 C ASN B 760 18.275 3.006 128.413 1.00 63.30 C ATOM 7173 O ASN B 760 18.907 2.147 129.034 1.00 63.37 O ATOM 7174 CB ASN B 760 16.128 1.905 129.134 1.00 63.15 C ATOM 7175 CG ASN B 760 14.796 2.120 129.831 1.00 63.39 C ATOM 7176 OD1 ASN B 760 14.666 1.870 131.031 1.00 63.45 O ATOM 7177 ND2 ASN B 760 13.796 2.580 129.082 1.00 63.36 N ATOM 7178 N GLY B 761 18.830 3.795 127.494 1.00 63.48 N ATOM 7179 CA GLY B 761 20.204 3.612 127.043 1.00 63.69 C ATOM 7180 C GLY B 761 20.404 2.296 126.310 1.00 63.83 C ATOM 7181 O GLY B 761 21.493 1.726 126.347 1.00 63.79 O ATOM 7182 N GLU B 762 19.347 1.813 125.655 1.00 63.98 N ATOM 7183 CA GLU B 762 19.411 0.591 124.846 1.00 64.12 C ATOM 7184 C GLU B 762 19.232 0.880 123.362 1.00 64.15 C ATOM 7185 O GLU B 762 18.469 1.770 122.984 1.00 64.19 O ATOM 7186 CB GLU B 762 18.365 −0.427 125.298 1.00 64.14 C ATOM 7187 CG GLU B 762 18.866 −1.419 126.331 1.00 64.25 C ATOM 7188 CD GLU B 762 17.976 −2.644 126.447 1.00 64.53 C ATOM 7189 OE1 GLU B 762 17.154 −2.886 125.536 1.00 64.62 O ATOM 7190 OE2 GLU B 762 18.103 −3.371 127.452 1.00 64.48 O ATOM 7191 N TYR B 763 19.938 0.115 122.531 1.00 64.22 N ATOM 7192 CA TYR B 763 19.920 0.301 121.081 1.00 64.20 C ATOM 7193 C TYR B 763 19.697 −1.020 120.348 1.00 64.27 C ATOM 7194 O TYR B 763 20.063 −2.085 120.848 1.00 64.30 O ATOM 7195 CB TYR B 763 21.218 0.968 120.608 1.00 64.12 C ATOM 7196 CG TYR B 763 21.621 2.170 121.437 1.00 64.09 C ATOM 7197 CD1 TYR B 763 22.707 2.108 122.307 1.00 64.05 C ATOM 7198 CD2 TYR B 763 20.900 3.362 121.367 1.00 64.28 C ATOM 7199 CE1 TYR B 763 23.074 3.206 123.080 1.00 64.06 C ATOM 7200 CE2 TYR B 763 21.258 4.465 122.136 1.00 64.42 C ATOM 7201 CZ TYR B 763 22.343 4.381 122.988 1.00 64.12 C ATOM 7202 OH TYR B 763 22.693 5.472 123.746 1.00 63.98 O ATOM 7203 N GLY B 764 19.085 −0.937 119.169 1.00 64.33 N ATOM 7204 CA GLY B 764 18.817 −2.112 118.338 1.00 64.42 C ATOM 7205 C GLY B 764 19.419 −1.999 116.949 1.00 64.48 C ATOM 7206 O GLY B 764 19.555 −0.899 116.408 1.00 64.51 O ATOM 7207 N ILE B 765 19.777 −3.141 116.367 1.00 64.53 N ATOM 7208 CA ILE B 765 20.397 −3.167 115.041 1.00 64.59 C ATOM 7209 C ILE B 765 20.001 −4.384 114.203 1.00 64.79 C ATOM 7210 O ILE B 765 20.290 −5.527 114.568 1.00 64.78 O ATOM 7211 CB ILE B 765 21.950 −3.038 115.121 1.00 64.56 C ATOM 7212 CG1 ILE B 765 22.589 −3.210 113.734 1.00 64.43 C ATOM 7213 CG2 ILE B 765 22.524 −4.023 116.133 1.00 64.50 C ATOM 7214 CD1 ILE B 765 24.053 −2.817 113.654 1.00 64.40 C ATOM 7215 N LEU B 766 19.328 −4.122 113.084 1.00 65.03 N ATOM 7216 CA LEU B 766 19.101 −5.138 112.059 1.00 65.20 C ATOM 7217 C LEU B 766 20.224 −5.047 111.031 1.00 65.40 C ATOM 7218 O LEU B 766 20.543 −3.957 110.547 1.00 65.47 O ATOM 7219 CB LEU B 766 17.737 −4.946 111.390 1.00 65.16 C ATOM 7220 CG LEU B 766 17.366 −5.866 110.218 1.00 65.21 C ATOM 7221 CD1 LEU B 766 17.208 −7.322 110.651 1.00 65.18 C ATOM 7222 CD2 LEU B 766 16.102 −5.368 109.524 1.00 65.21 C ATOM 7223 N TYR B 767 20.820 −6.192 110.706 1.00 65.60 N ATOM 7224 CA TYR B 767 21.995 −6.227 109.833 1.00 65.85 C ATOM 7225 C TYR B 767 22.017 −7.403 108.851 1.00 65.87 C ATOM 7226 O TYR B 767 21.142 −8.264 108.883 1.00 65.88 O ATOM 7227 CB TYR B 767 23.289 −6.176 110.660 1.00 65.95 C ATOM 7228 CG TYR B 767 23.463 −7.297 111.672 1.00 66.30 C ATOM 7229 CD1 TYR B 767 24.076 −8.501 111.313 1.00 66.37 C ATOM 7230 CD2 TYR B 767 23.041 −7.142 112.996 1.00 66.34 C ATOM 7231 CE1 TYR B 767 24.248 −9.528 112.238 1.00 66.42 C ATOM 7232 CE2 TYR B 767 23.209 −8.163 113.929 1.00 66.35 C ATOM 7233 CZ TYR B 767 23.813 −9.353 113.543 1.00 66.49 C ATOM 7234 OH TYR B 767 23.981 −10.369 114.458 1.00 66.48 O ATOM 7235 N GLU B 768 23.026 −7.419 107.984 1.00 65.95 N ATOM 7236 CA GLU B 768 23.182 −8.449 106.959 1.00 66.09 C ATOM 7237 C GLU B 768 24.312 −9.413 107.318 1.00 66.34 C ATOM 7238 O GLU B 768 25.435 −8.981 107.596 1.00 66.30 O ATOM 7239 CB GLU B 768 23.470 −7.800 105.602 1.00 66.09 C ATOM 7240 CG GLU B 768 22.288 −7.077 104.978 1.00 65.78 C ATOM 7241 CD GLU B 768 22.523 −6.708 103.524 1.00 65.81 C ATOM 7242 OE1 GLU B 768 23.671 −6.378 103.162 1.00 65.19 O ATOM 7243 OE2 GLU B 768 21.555 −6.745 102.738 1.00 65.61 O ATOM 7244 N HIS B 769 24.016 −10.714 107.303 1.00 66.63 N ATOM 7245 CA HIS B 769 24.998 −11.737 107.685 1.00 66.92 C ATOM 7246 C HIS B 769 24.750 −13.100 107.033 1.00 66.98 C ATOM 7247 O HIS B 769 23.617 −13.430 106.672 1.00 67.03 O ATOM 7248 CB HIS B 769 25.047 −11.885 109.212 1.00 67.04 C ATOM 7249 CG HIS B 769 26.175 −12.739 109.698 1.00 67.46 C ATOM 7250 ND1 HIS B 769 25.996 −14.039 110.120 1.00 68.01 N ATOM 7251 CD2 HIS B 769 27.501 −12.486 109.811 1.00 67.70 C ATOM 7252 CE1 HIS B 769 27.161 −14.546 110.483 1.00 68.23 C ATOM 7253 NE2 HIS B 769 28.091 −13.624 110.303 1.00 67.93 N ATOM 7254 N THR B 770 25.823 −13.881 106.898 1.00 67.09 N ATOM 7255 CA THR B 770 25.770 −15.231 106.336 1.00 67.24 C ATOM 7256 C THR B 770 26.564 −16.236 107.171 1.00 67.28 C ATOM 7257 O THR B 770 27.663 −15.937 107.643 1.00 67.17 O ATOM 7258 CB THR B 770 26.268 −15.248 104.868 1.00 67.31 C ATOM 7259 OG1 THR B 770 25.190 −14.885 104.000 1.00 67.62 O ATOM 7260 CG2 THR B 770 26.796 −16.630 104.451 1.00 67.37 C ATOM 7261 N GLU B 771 25.981 −17.421 107.342 1.00 67.36 N ATOM 7262 CA GLU B 771 26.638 −18.565 107.977 1.00 67.43 C ATOM 7263 C GLU B 771 25.866 −19.844 107.660 1.00 67.44 C ATOM 7264 O GLU B 771 24.675 −19.791 107.368 1.00 67.40 O ATOM 7265 CB GLU B 771 26.758 −18.370 109.494 1.00 67.47 C ATOM 7266 CG GLU B 771 25.434 −18.155 110.227 1.00 67.46 C ATOM 7267 CD GLU B 771 25.610 −17.981 111.727 1.00 67.54 C ATOM 7268 OE1 GLU B 771 26.764 −18.018 112.209 1.00 67.34 O ATOM 7269 OE2 GLU B 771 24.588 −17.806 112.426 1.00 67.81 O ATOM 7270 N LYS B 772 26.547 −20.987 107.727 1.00 67.52 N ATOM 7271 CA LYS B 772 25.954 −22.294 107.402 1.00 67.55 C ATOM 7272 C LYS B 772 25.457 −22.367 105.949 1.00 67.57 C ATOM 7273 O LYS B 772 24.386 −22.923 105.670 1.00 67.62 O ATOM 7274 CB LYS B 772 24.831 −22.662 108.388 1.00 67.52 C ATOM 7275 CG LYS B 772 25.280 −22.836 109.840 1.00 67.61 C ATOM 7276 CD LYS B 772 24.091 −23.050 110.779 1.00 67.59 C ATOM 7277 CE LYS B 772 23.268 −21.771 110.957 1.00 67.57 C ATOM 7278 NZ LYS B 772 22.052 −21.991 111.784 1.00 67.45 N ATOM 7279 N GLY B 773 26.246 −21.798 105.036 1.00 67.52 N ATOM 7280 CA GLY B 773 25.943 −21.804 103.602 1.00 67.49 C ATOM 7281 C GLY B 773 24.698 −21.030 103.205 1.00 67.49 C ATOM 7282 O GLY B 773 24.028 −21.380 102.231 1.00 67.37 O ATOM 7283 N GLN B 774 24.393 −19.974 103.957 1.00 67.58 N ATOM 7284 CA GLN B 774 23.202 −19.159 103.709 1.00 67.69 C ATOM 7285 C GLN B 774 23.357 −18.253 102.483 1.00 67.72 C ATOM 7286 O GLN B 774 24.428 −17.686 102.242 1.00 67.66 O ATOM 7287 CB GLN B 774 22.824 −18.351 104.956 1.00 67.67 C ATOM 7288 CG GLN B 774 22.092 −19.168 106.027 1.00 67.65 C ATOM 7289 CD GLN B 774 21.957 −18.439 107.361 1.00 67.65 C ATOM 7290 OE1 GLN B 774 22.808 −17.629 107.738 1.00 67.84 O ATOM 7291 NE2 GLN B 774 20.884 −18.735 108.085 1.00 67.41 N ATOM 7292 N ASN B 775 22.266 −18.123 101.728 1.00 67.77 N ATOM 7293 CA ASN B 775 22.247 −17.447 100.424 1.00 67.84 C ATOM 7294 C ASN B 775 22.668 −15.976 100.392 1.00 67.98 C ATOM 7295 O ASN B 775 23.041 −15.467 99.330 1.00 68.04 O ATOM 7296 CB ASN B 775 20.868 −17.600 99.773 1.00 67.75 C ATOM 7297 CG ASN B 775 20.659 −18.969 99.152 1.00 67.52 C ATOM 7298 OD1 ASN B 775 21.604 −19.733 98.957 1.00 67.27 O ATOM 7299 ND2 ASN B 775 19.412 −19.280 98.828 1.00 67.59 N ATOM 7300 N ALA B 776 22.599 −15.307 101.545 1.00 68.12 N ATOM 7301 CA ALA B 776 22.960 −13.885 101.698 1.00 68.25 C ATOM 7302 C ALA B 776 21.870 −12.925 101.214 1.00 68.37 C ATOM 7303 O ALA B 776 21.588 −12.843 100.017 1.00 68.27 O ATOM 7304 CB ALA B 776 24.313 −13.562 101.038 1.00 68.21 C ATOM 7305 N TYR B 777 21.258 −12.198 102.147 1.00 68.60 N ATOM 7306 CA TYR B 777 21.594 −12.283 103.568 1.00 68.89 C ATOM 7307 C TYR B 777 20.402 −12.754 104.404 1.00 69.29 C ATOM 7308 O TYR B 777 19.283 −12.857 103.900 1.00 69.23 O ATOM 7309 CB TYR B 777 22.112 −10.934 104.075 1.00 68.75 C ATOM 7310 CG TYR B 777 23.424 −10.492 103.458 1.00 68.51 C ATOM 7311 CD1 TYR B 777 23.450 −9.741 102.282 1.00 68.46 C ATOM 7312 CD2 TYR B 777 24.640 −10.813 104.056 1.00 68.55 C ATOM 7313 CE1 TYR B 777 24.655 −9.327 101.715 1.00 68.12 C ATOM 7314 CE2 TYR B 777 25.850 −10.404 103.498 1.00 68.30 C ATOM 7315 CZ TYR B 777 25.849 −9.664 102.330 1.00 68.22 C ATOM 7316 OH TYR B 777 27.044 −9.261 101.779 1.00 68.23 O ATOM 7317 N THR B 778 20.650 −13.030 105.684 1.00 69.86 N ATOM 7318 CA THR B 778 19.631 −13.603 106.568 1.00 70.46 C ATOM 7319 C THR B 778 19.027 −12.579 107.535 1.00 70.88 C ATOM 7320 O THR B 778 18.070 −12.881 108.246 1.00 70.93 O ATOM 7321 CB THR B 778 20.187 −14.835 107.324 1.00 70.40 C ATOM 7322 OG1 THR B 778 20.727 −15.759 106.374 1.00 70.46 O ATOM 7323 CG2 THR B 778 19.096 −15.542 108.120 1.00 70.51 C ATOM 7324 N LEU B 779 19.590 −11.373 107.547 1.00 71.48 N ATOM 7325 CA LEU B 779 19.028 −10.227 108.278 1.00 72.14 C ATOM 7326 C LEU B 779 18.638 −10.502 109.732 1.00 72.57 C ATOM 7327 O LEU B 779 17.527 −10.954 110.015 1.00 72.58 O ATOM 7328 CB LEU B 779 17.848 −9.615 107.510 1.00 72.14 C ATOM 7329 CG LEU B 779 18.168 −8.974 106.157 1.00 72.40 C ATOM 7330 CD1 LEU B 779 16.893 −8.644 105.418 1.00 72.76 C ATOM 7331 CD2 LEU B 779 19.016 −7.729 106.324 1.00 72.44 C ATOM 7332 N SER B 780 19.553 −10.194 110.647 1.00 73.16 N ATOM 7333 CA SER B 780 19.392 −10.562 112.053 1.00 73.76 C ATOM 7334 C SER B 780 19.389 −9.364 113.002 1.00 74.13 C ATOM 7335 O SER B 780 19.986 −8.327 112.708 1.00 74.17 O ATOM 7336 CB SER B 780 20.484 −11.555 112.456 1.00 73.75 C ATOM 7337 OG SER B 780 20.560 −12.623 111.528 1.00 73.95 O ATOM 7338 N PHE B 781 18.720 −9.528 114.143 1.00 74.63 N ATOM 7339 CA PHE B 781 18.579 −8.467 115.141 1.00 75.11 C ATOM 7340 C PHE B 781 19.447 −8.691 116.380 1.00 75.47 C ATOM 7341 O PHE B 781 19.689 −9.832 116.787 1.00 75.51 O ATOM 7342 CB PHE B 781 17.109 −8.323 115.550 1.00 75.07 C ATOM 7343 CG PHE B 781 16.844 −7.203 116.521 1.00 75.18 C ATOM 7344 CD1 PHE B 781 16.981 −5.873 116.131 1.00 75.09 C ATOM 7345 CD2 PHE B 781 16.441 −7.480 117.823 1.00 75.12 C ATOM 7346 CE1 PHE B 781 16.731 −4.838 117.027 1.00 74.98 C ATOM 7347 CE2 PHE B 781 16.188 −6.450 118.726 1.00 75.14 C ATOM 7348 CZ PHE B 781 16.334 −5.127 118.327 1.00 75.06 C ATOM 7349 N ARG B 782 19.916 −7.585 116.958 1.00 75.96 N ATOM 7350 CA ARG B 782 20.612 −7.576 118.245 1.00 76.35 C ATOM 7351 C ARG B 782 20.209 −6.333 119.043 1.00 76.87 C ATOM 7352 O ARG B 782 20.234 −5.211 118.529 1.00 76.91 O ATOM 7353 CB ARG B 782 22.134 −7.624 118.060 1.00 76.27 C ATOM 7354 CG ARG B 782 22.706 −9.000 117.713 1.00 76.13 C ATOM 7355 CD ARG B 782 24.225 −8.948 117.587 1.00 76.05 C ATOM 7356 NE ARG B 782 24.795 −10.193 117.073 1.00 75.70 N ATOM 7357 CZ ARG B 782 25.310 −11.164 117.824 1.00 75.36 C ATOM 7358 NH1 ARG B 782 25.338 −11.059 119.147 1.00 74.93 N ATOM 7359 NH2 ARG B 782 25.800 −12.250 117.244 1.00 75.23 N ATOM 7360 N LYS B 783 19.821 −6.553 120.296 1.00 77.48 N ATOM 7361 CA LYS B 783 19.429 −5.489 121.216 1.00 78.13 C ATOM 7362 C LYS B 783 20.542 −5.332 122.244 1.00 78.59 C ATOM 7363 O LYS B 783 21.145 −6.334 122.641 1.00 78.71 O ATOM 7364 CB LYS B 783 18.112 −5.873 121.905 1.00 78.09 C ATOM 7365 CG LYS B 783 17.927 −5.328 123.317 1.00 78.21 C ATOM 7366 CD LYS B 783 17.330 −6.386 124.237 1.00 78.51 C ATOM 7367 CE LYS B 783 17.769 −6.171 125.681 1.00 78.49 C ATOM 7368 NZ LYS B 783 17.341 −7.280 126.579 1.00 78.50 N ATOM 7369 N PHE B 784 20.829 −4.091 122.659 1.00 79.16 N ATOM 7370 CA PHE B 784 21.813 −3.843 123.734 1.00 79.71 C ATOM 7371 C PHE B 784 22.373 −2.420 123.876 1.00 79.88 C ATOM 7372 O PHE B 784 22.481 −1.667 122.901 1.00 79.92 O ATOM 7373 CB PHE B 784 22.992 −4.832 123.617 1.00 79.88 C ATOM 7374 CG PHE B 784 23.909 −4.557 122.451 1.00 80.24 C ATOM 7375 CD1 PHE B 784 25.285 −4.515 122.638 1.00 80.69 C ATOM 7376 CD2 PHE B 784 23.402 −4.330 121.170 1.00 80.52 C ATOM 7377 CE1 PHE B 784 26.137 −4.261 121.578 1.00 80.85 C ATOM 7378 CE2 PHE B 784 24.250 −4.069 120.103 1.00 80.78 C ATOM 7379 CZ PHE B 784 25.625 −4.034 120.309 1.00 80.73 C ATOM 7380 N ASN B 785 22.710 −2.084 125.124 1.00 80.15 N ATOM 7381 CA ASN B 785 23.630 −1.003 125.493 1.00 80.38 C ATOM 7382 C ASN B 785 25.039 −1.620 125.449 1.00 80.52 C ATOM 7383 O ASN B 785 25.134 −2.797 125.109 1.00 80.55 O ATOM 7384 CB ASN B 785 23.290 −0.539 126.910 1.00 80.34 C ATOM 7385 CG ASN B 785 23.560 −1.606 127.958 1.00 80.46 C ATOM 7386 OD1 ASN B 785 24.623 −1.623 128.582 1.00 80.55 O ATOM 7387 ND2 ASN B 785 22.603 −2.511 128.145 1.00 80.30 N ATOM 7388 N TRP B 786 26.152 −0.942 125.768 1.00 80.73 N ATOM 7389 CA TRP B 786 26.437 0.479 126.073 1.00 80.95 C ATOM 7390 C TRP B 786 27.685 0.383 126.949 1.00 81.12 C ATOM 7391 O TRP B 786 28.591 1.215 126.860 1.00 81.16 O ATOM 7392 CB TRP B 786 25.349 1.265 126.812 1.00 80.97 C ATOM 7393 CG TRP B 786 25.895 2.541 127.417 1.00 81.10 C ATOM 7394 CD1 TRP B 786 26.165 2.768 128.736 1.00 81.20 C ATOM 7395 CD2 TRP B 786 26.286 3.737 126.719 1.00 81.33 C ATOM 7396 NE1 TRP B 786 26.679 4.033 128.907 1.00 81.36 N ATOM 7397 CE2 TRP B 786 26.764 4.649 127.686 1.00 81.35 C ATOM 7398 CE3 TRP B 786 26.266 4.131 125.372 1.00 81.40 C ATOM 7399 CZ2 TRP B 786 27.224 5.931 127.351 1.00 81.21 C ATOM 7400 CZ3 TRP B 786 26.723 5.410 125.039 1.00 81.24 C ATOM 7401 CH2 TRP B 786 27.192 6.292 126.028 1.00 81.17 C ATOM 7402 N ASP B 787 27.702 −0.640 127.808 1.00 81.30 N ATOM 7403 CA ASP B 787 28.926 −1.127 128.444 1.00 81.43 C ATOM 7404 C ASP B 787 29.755 −1.806 127.359 1.00 81.48 C ATOM 7405 O ASP B 787 30.983 −1.862 127.432 1.00 81.48 O ATOM 7406 CB ASP B 787 28.606 −2.131 129.558 1.00 81.43 C ATOM 7407 CG ASP B 787 27.716 −1.546 130.647 1.00 81.48 C ATOM 7408 OD1 ASP B 787 27.906 −0.368 131.022 1.00 81.48 O ATOM 7409 OD2 ASP B 787 26.827 −2.277 131.138 1.00 81.40 O ATOM 7410 N PHE B 788 29.048 −2.326 126.357 1.00 81.57 N ATOM 7411 CA PHE B 788 29.632 −2.813 125.114 1.00 81.65 C ATOM 7412 C PHE B 788 30.368 −1.677 124.400 1.00 81.63 C ATOM 7413 O PHE B 788 31.387 −1.902 123.746 1.00 81.61 O ATOM 7414 CB PHE B 788 28.516 −3.370 124.226 1.00 81.72 C ATOM 7415 CG PHE B 788 28.975 −3.840 122.874 1.00 81.81 C ATOM 7416 CD1 PHE B 788 29.337 −5.170 122.672 1.00 82.00 C ATOM 7417 CD2 PHE B 788 29.012 −2.960 121.791 1.00 81.93 C ATOM 7418 CE1 PHE B 788 29.749 −5.611 121.417 1.00 82.21 C ATOM 7419 CE2 PHE B 788 29.419 −3.391 120.535 1.00 81.98 C ATOM 7420 CZ PHE B 788 29.789 −4.717 120.346 1.00 82.17 C ATOM 7421 N LEU B 789 29.839 −0.463 124.539 1.00 81.65 N ATOM 7422 CA LEU B 789 30.429 0.731 123.935 1.00 81.66 C ATOM 7423 C LEU B 789 31.477 1.392 124.831 1.00 81.65 C ATOM 7424 O LEU B 789 32.517 1.842 124.344 1.00 81.63 O ATOM 7425 CB LEU B 789 29.334 1.741 123.574 1.00 81.66 C ATOM 7426 CG LEU B 789 28.525 1.482 122.300 1.00 81.71 C ATOM 7427 CD1 LEU B 789 27.137 2.094 122.404 1.00 81.70 C ATOM 7428 CD2 LEU B 789 29.261 2.006 121.070 1.00 81.72 C ATOM 7429 N SER B 790 31.194 1.449 126.132 1.00 81.65 N ATOM 7430 CA SER B 790 32.065 2.118 127.101 1.00 81.64 C ATOM 7431 C SER B 790 33.285 1.271 127.465 1.00 81.63 C ATOM 7432 O SER B 790 34.426 1.713 127.310 1.00 81.66 O ATOM 7433 CB SER B 790 31.286 2.483 128.374 1.00 81.67 C ATOM 7434 OG SER B 790 30.077 3.162 128.076 1.00 81.64 O ATOM 7435 N LYS B 791 33.029 0.053 127.940 1.00 81.59 N ATOM 7436 CA LYS B 791 34.065 −0.814 128.497 1.00 81.50 C ATOM 7437 C LYS B 791 34.594 −1.792 127.452 1.00 81.41 C ATOM 7438 O LYS B 791 35.550 −1.494 126.738 1.00 81.27 O ATOM 7439 CB LYS B 791 33.503 −1.574 129.701 1.00 81.48 C ATOM 7440 CG LYS B 791 34.512 −1.890 130.790 1.00 81.53 C ATOM 7441 CD LYS B 791 33.801 −2.426 132.019 1.00 81.58 C ATOM 7442 CE LYS B 791 34.737 −2.553 133.201 1.00 81.41 C ATOM 7443 NZ LYS B 791 33.990 −2.994 134.409 1.00 81.35 N

Such a search can be carried out commericially, for example, by Schrödinger (Schrödinger LLC, Portland, Oreg., USA) to yield candidate neuraminidase inhibitors that are predicted to bind the neuraminidase active site. Visualization, structural refinement, and docking can be performed using Maestro 7.0, MacroModel 9.0, Prime 1.2, Glide 3.5, and IFD script from Schrödinger, LLC (New York).

Example 3 The NanA Neuraminidase of Streptococcus pneumoniae is Involved in Biofilm Formation

Abstract

Streptococcus pneumoniae remains a major cause of bacteremia, pneumonia and otitis media despite vaccines and effective antibiotics. The neuraminidase of S. pneumoniae, which catalyzes the release of terminal sialic acid residues from glycoconjugates, is involved in host colonization in animal models of infection and can provide a new target to prevent pneumococcal infection. We demonstrate that the S. pneumoniae neuraminidase (NanA) cleaves sialic acid and show that it is involved in biofilm formation, indicating an additional role in pathogenesis, and sharing this property with the neuraminidase of Pseudomonas aeruginosa even though we show the two enzymes are phylogenetically divergent. Using an in vitro model of biofilm formation incorporating human airway epithelial cells, we demonstrate that small molecule inhibitors of NanA block biofilm formation and can provide a new target for preventative therapy. This work highlights the role played by the neuraminidase in pathogenesis and represents an important step in drug development to prevent colonization of the respiratory tract by this important pathogen.

INTRODUCTION

Neuraminidases are widespread among animals and microorganisms, catalyzing the release of terminal sialic acid residues from glycoconjugates (B51). The best characterized is the influenza neuraminidase, required to facilitate spread of the virus. The influenza neuraminidase is not only a key antigen for the highly successful influenza vaccine, it is also the target for the drugs zanamivir and oseltamivir, which have been useful to prevent and ameliorate influenza infection (B57). S. pneumoniae produces at least three distinct neuraminidases (B41); NanA being the most active and most highly expressed at the transcriptional level (B5, B31) that is conserved in all strains (B21, B24, B41). Production of NanA can be detected in vivo, and its expression is upregulated upon interaction with host cells (B27, B39, B46, B59). The pneumococcal neuraminidase modifies host glycoconjugates, including immune defense proteins (B22, B23) and exposes potential binding receptors (B3, B26, B28, B54, B55). Pneumococcal neuraminidase activity also provides a source of carbohydrates for bacterial metabolism, cleaving sugars from the mucosal surface (B8, B23, B61), but whether this significantly contributes to bacterial growth in vivo is not clearly established. Several studies have indicated that nanA mutants colonize the rodent respiratory tract less efficiently than wild type strains (B31, B40, B52) and vaccination with purified NanA affords some protection against nasopharyngeal colonization and otitis media (B29, B30, B53). However, these differences can be mouse strain and animal model dependent (B6, B13, B22, B23).

In addition to targeting host glycoconjugates some bacterial neuraminidases have a role in biofilm formation; presumably by targeting sialylated bacterial exopolysaccharides (B47). S. pneumoniae biofilms have been characterized (B1, B34, B36) and have been observed directly in the middle ear mucosa from children with chronic otitis media (B15), contributing to the colonization process (36). Of note, expression of nanA is upregulated when S. pneumoniae is grown under biofilm conditions (39). There is a need for new therapeutic strategies as serotypes not covered by available vaccines are rising in prevalence by genetic recombination and strain replacement, and are increasingly associated with invasive disease (B7, B20, B45, B58). Without being bound by theory, the neuraminidase of S. pneumoniae is similarly involved in biofilm formation and sought to identify compounds to inhibit its activity in vitro.

Materials and Methods

Bacterial strains and media. S. pneumoniae strains D39 (B4), D39 nanA (B22) and R6 (B 18) and R6 nanA (B23) were grown on trypticase-soy (TS) agar or broth supplemented with 200 U/ml catalase (Worthington) and 1 μg/ml of chloramphenicol for nanA strains. Plate cultures were grown at 37° C. in the presence of carbon dioxide (5%). All chemicals were purchased from Sigma unless otherwise stated.

Epithelial cell culture. Human bronchial epithelial cells, 16HBE14o⁻ and human airway cells, 1HAEo⁻ (Originally from D. Gruenert California Pacific Medical Center Research Institute, San Francisco, Calif., USA), were grown in minimum essential medium with Earle's salts (Cellgro and Gibco respectively) supplemented with 10% fetal bovine serum (Cambrex and Gibco respectively), 100 U/ml penicillin and 100 ug/ml streptomycin. 16HBE14o⁻ cells were additionally supplemented with 2 mM glutamine (Invitrogen). Cells were grown at 37° C. with 5% CO₂ in a humidified incubator.

Neuraminidase assay. NanA was purified as previously described (B19). Neuraminidase activity of NanA was detected using the fluorogenic substrate 2′-(4-methylumbelliferyl)-α-D-N-acetylneuraminic acid (MNN, Sigma). Reactions contained 1.5 mM MNN, 1 nM of NanA in 2.5 mM sodium phosphate buffer (pH 5). Reactions were allowed to incubate for 2 h at 37° C. before fluorescence intensity was measured at excitation and emission wavelengths of 360 nm and 465 nm in a Tecan microplate reader (Männedorf, Switzerland). Compounds were obtained from a variety of sources (Otava, Kiev, Ukraine; Interbioscreen, Moscow, Russia; Chembridge San Diego, USA; Maybridge, Cornwell, UK; Sigma, St Louis, USA; Princeton, Princeton, USA; Lifechem, Burlington, Canada; Enamine, Kiev, Ukraine). Neuraminidase assays with oseltamivir were performed using the hydrolyzed version of the compound. Briefly, a mixture of oseltamivir (300 mg) in methanol (10 ml) was added to 5N NaOH (3 ml). The mixture was stirred overnight and evaporated under reduced pressure. The residue was dissolved in 10 ml H₂O and the washed with 5 ml of ethyl acetate. The aqueous solution was acidified with 5N HCl to pH=2-3. Evaporation of water under reduced pressure gave the hydrolyzed product. The structure of the product was confirmed by NMR and MS. Divalent cations were supplied in the form of calcium, magnesium, ferric and copper chloride. All neuraminidase assays were performed at least in triplicate.

Quantification of asialoGM1 exposure by flow cytometry. 16HBE14o⁻ cells were grown in 24-well plates to confluence and exposed to bacterial supernatants for 3 h followed by three PBS washes. Supernatants were concentrated approximately 30-fold (Amicon Ultra, Millipore) and adjusted for protein quantity. As a control, media alone was also concentrated. Cells were stained with rabbit polyclonal anti aGM1 antibody (Wako) followed by Alexa Fluor 488 donkey anti-rabbit IgG (Molecular Probes). Cells were detached from the plates using 0.02% EGTA in HBSS (Hanks buffered saline solution), fixed with 1% paraformaldehyde and analyzed on a FACSCalibur using CellQuest software (version 3.3; BD). Data were analyzed using WinMDI (version 2.8, Joseph Trotter).

Adherence assay. Adherence assays were performed using 16HBE14o⁻ cells. Bacterial strains were grown to mid-log phase, washed with PBS and 0.7-2×10⁷ cfu of bacterial cells were added to confluent monolayers in 24-well plates (MOI=30). Bacterial cells were allowed to adhere for 1 h at 37° C. before three washes with PBS. Bacteria were dissociated from epithelial cells using TrypLE Express (Gibco) and were serially diluted before plating to determine adherent numbers. The assay was performed with three biological replicates with duplicate technical replicates over two separate experiments.

Biofilm assay. Bacterial strains were grown to mid-log phase before being diluted 1:100 in TS broth and catalase. 100 μl of diluted culture was added in triplicate to 96-well flat bottom tissue culture treated plates (Falcon) and left for 18-24 h at 37° C. with 5% CO₂. Plates were read at 600 nm to determine levels of growth before being washed in water. Adherent biofilm-forming cells were then stained with 125 μL of 1% crystal violet for 15 min before two further washes in water and allowed to dry. Bound crystal violet was then suspended in 200 μL of ethanol, shaken for 15 min and read at 540 nm.

Biofilm formation after epithelial cell interaction. Bacterial strains were grown and inoculated onto 1HAEo⁻ cells as per adherence assay. After the initial PBS washes fresh MEM media was applied before a further 1 h incubation. This removal and addition of fresh media was repeated a further four times before detachment of adherent bacteria using TrypLE Express (Gibco). The detached bacteria were then diluted 1:100 in TS broth and catalase and assayed as per the biofilm assay. Samples were repeated four times, each time in sextuplicate using epithelial cells without bacteria as a negative control. When using inhibitors, inhibitors were present during epithelial cell interaction and in microtitre trays for biofilm formation. Inhibition with NANA was performed using 0.2% w/v NANA (Sigma) (B56). Images of crystal violet stained microtitre wells were taken with a standard digital camera. Fluorescence microscopy was performed using a Zeiss Observer Z1 inverted fluorescence microscope with ApoTome (Zeiss) for optical sectioning and AxioVision software (v 4.6.2.0, Zeiss). Microtitre wells were stained using the live/dead BacLight stain from Invitrogen (Carlsbad, Calif., USA).

Phylogenetic analysis. Our sampling strategy was aimed at maximizing phylogenetic breadth in order to understand the overall pattern of evolution in the neuraminidase/sialidase gene family. We began with a list of well-known neuraminidases including those from V. cholerae, S. typhimurium, C. perfringens, S. pneumoniae, T cruzi, and P. aeruginosa. For each sequence we did a standard BLAST search and collected one sequence from each genus in the list of hits that had an e-value score of 1×10⁻⁵ or lower. Duplicates were deleted. We also included sequences that have been included in other prior publications on the evolution of sialidases (B43). A list of sequences and gene identification numbers is included as supplemental information. Sequences were aligned using the ClustalW algorithm as implemented in the program BioEdit using default settings. Sequences were aligned as amino acids and then transposed back to the original nucleotide sequences maintaining the gaps determined by the initial alignment (5394 characters total, 4124 parsimony informative characters with gaps as a fifth state, 3766 parsimony informative characters with gaps as treated as missing).

A rigorous phylogenetic analysis was undertaken using maximum parsimony (MP) algorithm implemented in PAUP* (B50). 1000 replicates of random addition (RA) was performed followed by the tree branch reconnection (TBR) algorithm using the “multrees” option to save more than one optimal tree if discovered in the search. All characters and state transformations were given equal weight. Terminal gaps were scored as missing data in all analyses. We performed two analyses designating internal gaps as a fifth character state in one and as missing data in the other. Although the trees had many nodes in agreement there were major differences between the structures of the 2 trees. Since gaps can be informative characters (B14, B42) we favor the analysis in which internal gaps are counted as character states. We performed nonparametric bootstrap analyses with 100 iterations consisting of 100 RA replicates followed by TBR to gauge the robustness of the tree.

Statistics. Data significance was determined with a students t-test and for multivariant data with ANOVA followed with a post Dunnetti test using GraphPad Prism software.

Results

Biochemical properties of NanA. To better understand the biochemical properties of NanA and to later facilitiate screening of candidate inhibitory compounds we established an assay to measure its neuraminidase activity. The biochemical activity of NanA was assayed using the fluorogenic sialic acid derivative 2′-(4-methylumbelliferyl)-α-D-N-acetylneuraminic acid (MNN). NanA cleaved the fluorogenic substrate significantly at low nanomolar and even at picomolar concentrations (FIG. 5A). The Km of NanA for this substrate is about 1.4 mM, which is generally comparable to the Km values reported for other neuraminidases. The neuraminidase from Vibrio cholerae requires divalent cations, specifically calcium to be active (B10, B17). We investigated the effect of adding calcium ions to the reaction and observed that calcium was not essential for NanA activity, but did increase activity of NanA by 70% at a concentration of 1 mM (FIG. 5B), a 50% activity increase in the presence of magnesium ions (FIG. 5B) and decreased activity in the presence of iron and copper, presumably due to their larger molecular masses (FIG. 5B). The presence of either copper or ferric ions decreased activity by 90% or greater at millimolar levels.

The ability of sialic acids to competitively inhibit NanA activity was also tested. The two sialic acids used, N-acetylneuraminic acid (NANA) and 2,3-dehydro-2-deoxy-N-acetylneuraminic acid (DANA) were both utilized to obtain co-crystals of NanA (B 19). NANA caused 50% inhibition at 600 μM (FIG. 6). We observed higher inhibition with the transition state analog DANA compared to NANA. DANA reduced activity by 50% at 200 μm.

Phylogeny of the neuraminidases. The neuraminidase superfamily is known to be highly divergent (B43, B51). Without being bound by theory, neuraminidases from organisms that infect a common site can have similar functions and hence can be evolutionarily related; which can be useful in the identification of common inhibitors. To better ascertain the evolutionary relatedness of NanA, a phylogenetic analysis of a number bacterial, eukaryotic and viral neuraminidases was conducted (FIG. 4). NanA clustered closely to the large neuraminidase of C. perfringens (B38) and was more closely related to well characterized bacterial neuraminidases. NanA did not cluster with the neuraminidase from Pseudomonas aeruginosa, which is also involved in respiratory tract colonization.

Biological activity of pneumococcal NanA. Many lung pathogens, including S. pneumoniae and P. aeruginosa, bind to the asialylated ganglioside receptor GM1 (aGM1, Galβ1-3GalNAcβ1-4Galβ1-4Glcβ1-1Cer) (B26). Either purified NanA or concentrated supernatant from wild-type S. pneumoniae strain D39 but not its isogenic nanA mutant exposed aGM1 on the surface of 16HBE14o⁻ epithelial cells (FIG. 7). However, no effect was observed on bacterial adherence nor was there a growth advantage in the presence of airway epithelial cells.

NanA is involved in biofilm formation. As S. pneumoniae nanA expression is upregulated in lung tissue and in biofilm-growing cells (B39) the contribution of nanA to the formation of biofilms was examined (FIG. 12). This increase in expression was exploited by initially growing the bacteria on airway epithelial cells over the course of the day (see Materials and Methods). Adherent bacterial cells were then recovered before setting up the standard microtitre biofilm assay. Exposure of S. pneumoniae to airway epithelial cells prior to setting up the biofilm assay not only caused a significant increase in biofilm formation, but showed the nanA mutant to have significantly reduced capacity to form biofilms. When S. pneumoniae did not have previous airway epithelial cell exposure, no difference in biofilm formation was observed between the WT and nanA strains, nor was much biofilm formation observed. In an S. pneumoniae R6, unencapsulated background, significantly more biofilm was produced and the nanA strain was also significantly reduced in its ability to form biofilms (FIG. 12A). Consistent with NANA acting as an inhibitor in the neuraminidase assay (FIG. 6) adding exogenous NANA to the biofilm assay also resulted in decreased biofilm formation of the wild-type strain (FIG. 12B).

The biofilms produced by R6 were present as even layers of cells on the microtitre plate and the reduction in biofilm observed with the nanA mutant was evident as reduced intensity of crystal violet staining (FIG. 13A). In the D39 background, after exposure to epithelial cells, the WT strain was seen as more intense crystal violet (CV) staining overall compared to the nanA strain (FIG. 13A). Macroscopically, the WT strain had regions of intense CV staining seen as clumps. When the D39 biofilms were examined under the microscope (FIG. 13B) a lattice arrangement of cells was observed in both WT and nanA strains. Regions of concentrated cells were observed with nanA but no macro-structures were observed. However in the WT background structures were observed that had significant height (FIG. 13B-C). These structures were approximately 70 μm in height, as seen on the 3D reconstruction (FIG. 13C). In the nanA background only cells on the initial sections were observed attached to the microtitre well (FIGS. 13B, D).

Identification of small molecule inhibitors to the neuraminidases. A virtual library screen was performed (Schrödinger LLC, Portland, Oreg., USA) (B25, B44) that identified small molecules that were predicted to interact with the active site of the enzyme. As a control we tested the ability of the influenza neuraminidase inhibitor oseltamivir to inhibit NanA (FIG. 10). Oseltamivir had an IC₅₀ of 2 mM. A number of compounds identified from this screen showed high degrees of inhibition in vitro (FIG. 14A). A lead compound, designated XX1 (FIG. 14D), with a pyrrolidine-2,3-dione chemical scaffold was found to inhibit NanA over a range of concentrations and in a dose-dependent manner (FIG. 14B). An IC₅₀ of 28 μM was determined. The inhibition afforded by XX1 to NanA was greater than 7, 20 and 70 times more effective than DANA, NANA and oseltamivir, respectively. At a concentration of 100 μM we observed a significant reduction in biofilm formation with XX1 and at 400 μM the levels of biofilm formation were comparative to the nanA strain (FIG. 14C). XX1 did not affect growth of planktonic cells.

Discussion

For S. pneumoniae, the biofilm phenotype is most evident in vivo (B 15), or as we show, under in vitro conditions that favor neuraminidase expression. We were able to demonstrate a difference in biofilm production after growth on human airway cells, which has been shown to induce nanA expression (B27, B39, B46) and reduce capsule production (B16). By selecting for organisms on human airway cells, we apparently mimic a in vivo process in which encapsulated organisms that are able to avoid mucus entrapment and clearance gradually produce less capsule to facilitate epithelial attachment (B20). This association between capsule expression and biofilm formation was evident with the R6 strain. R6 does not produce capsule and we observed it to produce significant biofilms, with its nanA mutant displaying reduced propensity for biofilm formation. This reduced capsule is important in initial airway colonization both from facilitating initial adherence and promoting cell-to-cell interaction for biofilm formation (B20). This is also consistent with other studies that showed cells induced to a biofilm state had greater propensity to cause pneumonia compared to planktonic cells (B39).

Without being bound by theory, the role of the neuraminidase lies somewhere between the two processes of cluster formation and biofilm maturation (B1). This is based on the fact that the biofilms observed with the wild-type strain resembled those seen in mature biofilms grown under flow conditions (B2) and while the nanA strain still had regions of clustered cells it had no large cellular structures. It should be noted that some differences are also to be expected when comparing static and continuous flow systems. Even though the development and composition of biofilms is complex and numerous genes and proteins are differentially expressed (B1, B34, B39), the high expression of nanA in biofilms and subsequent data presented here, indicate a crucial role for this enzyme in biofilm production. A recent study by Trappetti et al (B56) demonstrated the role of sialic acid in pneumococcal biofilm formation. Addition of sialic acid and not other sugars resulted in increased biofilm formation as well as increased organisms present in the nasopharynx in a murine model of colonization (B56). NANA at high concentrations inhibits biofilm formation by S. pneumoniae by occupying the binding site of NanA. Based on this study and our own work, the liberation of sialic acid residues from the airway epithelium by the action of NanA appears to contribute to biofilm formation by S. pneumoniae, and hence would be a desirable target for therapeutic intervention.

Even though nanA is the most highly expressed neuraminidase gene the other neuraminidases of S. pneumoniae can contribute to biofilm formation. In the serotype 4 background (TIGR4) nanB is involved to a small extent in biofilm formation (B36). It should be noted that a mutation exists in nanA in this strain affecting its cell wall attachment. These studies highlighted the important role biofilms play in pathogenesis, establishing a link between biofilm formation and colonization of the murine nasopharynx. Our data are consistent with these observations indicating a reduced capacity to form biofilms is behind the reduced pathogenesis of the neuraminidase (nanA) mutant in animal models (B31, B40). Based on this work and others a model for the establishment of infection in the respiratory tract by S. pneumoniae can be established. Encapsulated cells reach the mucus layer where the capsule is required to avoid mucous entrapment. NanA is also able to utilize the mucin as a carbon source (B61). Upon reaching the respiratory epithelium capsule expression is down regulated to facilitate intimate attachment. It is at this point that neuraminidase expression is increased and cells begin to establish a biofilm state.

Another respiratory pathogen, P. aeruginosa also produces a neuraminidase (NanPs), important for biofilm formation and pathogenesis in animal models (B47), indicating a conserved role in pathogenesis for the two neuraminidases. Desialylated glyco-lipids provide receptors for many of the common bacterial pulmonary pathogens including both S. pneumoniae and P. aeruginosa (B26), which bind to the exposed GalNAcβ1-4Gal residues when terminal sialic acid is cleaved. We demonstrated that NanA like P. aeruginosa (B47) was capable of exposing this receptor on human airway cells. The neuraminidase activity associated with intact organisms, either S. pneumoniae or P. aeruginosa (B47) was not associated with increased bacterial attachment, which is an interesting observation given that the desialylation of airway mucosal cells by the influenza neuraminidase increases susceptibility to secondary infection often caused by S. pneumoniae (B33).

The crystal structures of both NanA and NanPs were recently solved (B 19, B60). Structural analysis indicated that while both enzymes had similar overall structure their active sites were remarkably different, indicating differences in substrate specificity and biochemical function (B9, B47). We also observed that both enzymes are phylogenetically distinct, with NanA clustering closer to other well characterized canonical neuraminidases and NanPs located in a phylogenetically diverse branch of the tree. Yet despite their differences in structure, and different substrates, both neuraminidases possess similar functions in pathogenesis.

The neuraminidase from Vibrio cholerae requires divalent cations, specifically calcium, to be active (B10, B17), while we observed an increase in activity in the presence of calcium ions it was not an absolute requirement for activity. This is an analogous observation with the neuraminidase of P. aeruginosa (B9). The inhibition we did observe with iron and copper ions is consistent with metal ions inhibiting such enzymes (B17). The increase of activity with calcium can indicat the presence of a calcium binding site as in V. cholerae (B10) and C. perfringens (B38) although this is not a categorical feature of neuraminidases nor was one identified from the crystal structure (B9, B11, B19, B48, B60). However, the presence of a calcium binding site would not be incongruous given the close phylogenetic relationship between NanA and the other well characterized bacterial neuraminidases.

New therapeutic strategies needed against S. pneumoniae as serotypes not covered by available vaccines are rising in prevalence by genetic recombination and are increasingly associated with invasive disease (B7, B20, B45, B58); in addition, antibiotic resistance amongst S. pneumoniae is a growing problem (B32). We identified a number of compounds based on in silico docking studies that were significantly more inhibitory than the sialic acids NANA and DANA, and the influenza inhibitor oseltamivir. Many neuraminidases have been crystallized in the presence of the sialic acid DANA (B11, B19, B35, B38) and we subsequently observed it to inhibit the neuraminidase activity of NanA better than NANA. Although the inhibition observed by DANA was not as great as some neuraminidases tested to-date, it is within the observed ranges of inhibition (B12, B48). Our lead compound XX1 was found to inhibit the neuraminidase activity of NanA in the low micromolar range and also inhibit the organisms ability to form biofilms. Some work has been done looking into inhibition of other bacterial neuraminidases but the most work to date has been with the trypanosome trans-sialidases (B37, B48, B49). Studies to-date have identified trypanosome inhibitors with IC₅₀'s in the range of 100-300 μM, indicating that the studies presented here are already progressing well comparative to the scientific community. We are actively involved in synthesizing XX1 in an attempt to examine its ability to prevent infection in vivo.

Based on structural data, inhibitors developed to the pneumococcal neuraminidase will be organism specific. The NanPs neuraminidase of P. aeruginosa has a significantly different active site. The binding pocket of NanA is tight while NanPs has an open conformation that can require different inhibitor structures for effective inhibition (B19). Thus, neuraminidase inhibitor delivery to the lung can be used as a prophylaxis to circumvent bacterial pneumonia post influenza infection and also to at-risk populations.

Despite biochemical, structural and phylogenetic differences we demonstrate a common role for the neuraminidases of S. pneumoniae and P. aeruginosa in biofilm formation and the pathogenesis of respiratory tract infection. Due to the importance of biofilms in colonization of S. pneumoniae we have begun to identify inhibitors targeting the pneumococcal neuraminidase to prevent infection. This study represents a starting point in the development of a new drug against pneumococcal pneumonia.

Supporting Information

Accession numbers. The GenBank (http://www.ncbi.nlm.nih.gov/Entrez/) accession numbers utilized for phylogenetic analysis are: Verrucomicrobium spinosum gi|164421336:353068-354225, Blastopirellula marina gi|87311313:89394-90503, Lentisphaera araneosa gi|149198907:89577-90743, Propionibacterium acnes gi|50841496:752060-754375, Ruminococcus lactaris gi|197302028:32228-35857, Erysipelothrix rhusiopathiae gi|13516389:295-3807, Pasteurella multocida gi|15601865:1176085-1179327, Actinomyces odontolyticus gi|145845834:308755-310992, Mannheimia haemolytica gi|125433996:1-2376, Haemophilus parasuis gi|167854877:54475-56886, Bacteroides fragilis gi|53711291:4836372-4838006, Akkermansia muciniphila gi|187734516:2229943-2231967, Capnocytophaga canimorsus gi|194454827:2197-3765, Parabacteroides distasonis gi|150006674:3525685-3527310, Shewanella pealeana gi|157959830:1838982-1841831, Flavobacteriales bacterium gi|88710837:680637-681797, Rhodopirellula baltica gi|32470666:1724290-1725519, Opitutaceae bacterium gi|153892517:3249-4847, Sassharopolyspora erythraea gi|134096620:5769332-5771182, Pseudoalteromonas haloplanktis gi|77361923:196316-197458, Chthoniobacter flavus gi|196231426:66519-67730, Janibacter sp. gi|84494251:767782-770736, Monosiga brevicollis gi|167534964:1-984, Strongylocentrotus purpuratus gi/115616575:1-719, Planctomyces maris gi|149177549:10030-11205, Acinetobacter baumannii gi|169632029:647539-649371, Opitutaceae bacterium gi|153890920:5481-6641, Danio rerio gi|148539964:69-1220, Corynebacterium diptheriae gi|38232642:512872-515037, Gemmata obscuriglobus gi|163804184:63331-64515, Streptomyces coelicolor gi|32141095:7255596-7257542, Takifugu rubripes gi|148372013:1-87, V. cholerae gi|12057212:1933231-1935654, C. perfringens nanI gi|18308982:900997-903081, C. perfringens nanH gi|18308982:904693-905499, P. aeruginosa gi|110227054:3150886-3152202, C. septicum gi|40662, C. sordellii gi|1710442, A. viscosus gi|39254, Trypanosoma rangeli gi|2894809, T. cruzi gi|162265, T. cruzi SAPA (shed-acute-phase-antigen) gi|10943, Micromonosporta viridifaciens gi|216782:816-2759, Arthrobacter ureafaciens gi|60544840, Influenzae A H5N1 gi|108671038, Macrobdella decora gi|1353880, Salmonella typhimurium gi|16763390:1002088-1003326, S. pneumoniae gi/116515308:1522475-1525468, Arcanobacterium pyogenes gi|18146340:1026-6239, Xenopus laevis gi|148228846:180-1376, Trichomonas vaginalis gi|123473002:1-1050, Rattus norvegicus gi|71896601:59-1288, Bos taurus gi|149676185:61-219, 650-842, 1541-1803, 2490-2672, 2849-3071, 3185-3411, and Monodelphis domestica gi|126309689:1-1404.

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EQUIVALENTS

Those skilled in the art will recognize, or be able to ascertain, using no more than routine experimentation, numerous equivalents to the specific substances and procedures described herein. Such equivalents are considered to be within the scope of this invention, and are covered by the following claims. 

1. A method for reducing or inhibiting bacterial biofilm formation, the method comprising contacting a surface with a bacterial neuraminidase inhibitor for a sufficient time so as to modulate bacterial neuraminidase activity, thereby reducing or inhibiting formation of the biofilm.
 2. The method of claim 1, wherein the surface comprises a biofilm.
 3. The method of claim 1, wherein the biofilm is produced by a bacterium.
 4. The method of claim 1, wherein the neuraminidase inhibitor is a compound comprising Formula (I):

wherein, R¹ is H, halogen, cyano, azido, nitro, C₁-C₆ alkyl, or C₁-C₆ alkoxy; R² is H, halogen, cyano, azido, nitro, C₁-C₆ alkyl, or C₁-C₆ alkoxy; R³ is H, —CO₂R⁴ or —CON(R⁴)₂; each R⁴ is, independently, H or C₁-C₆ alkyl; X is —CH₂—, —(C═O)—, —(C═NH)—, —(C═N—O—C₁-C₆-alkyl)-, or —(C═S)—; and Y is —(C═O)—, —(C═NH)—, —(C═N—O—C₁-C₆-alkyl)-, or —(C═S)—, or a pharmaceutically acceptable salt or hydrate thereof.
 5. The method of claim 1, wherein the neuraminidase inhibitor is a compound comprising Formula (A),


6. The method of claim 1, wherein the neuraminidase inhibitor is a compound comprising Formula (X),


7. The method of claim 1, wherein the neuraminidase inhibitor comprises oseltamivir, peramivir, zanamivir, or a variant thereof.
 8. The method of claim 1, wherein the neuraminidase inhibitor is an antibody that specifically binds to the NanA protein of S. pneumoniae or a fragment thereof; an antisense RNA or antisense DNA that inhibits expression of a NanA polypeptide; a siRNA that specifically targets a NanA gene, a peptide comprising at least 10 amino acids of SEQ ID NO: 2 wherein the peptide competes with endogenous NanA for ligand binding; or a combination thereof.
 9. The method of claim 3, wherein the bacterium is a Gram-negative or Gram-positive bacterium.
 10. The method of claim 3, wherein the bacterium is Pseudomonas, Streptococcus, Haemophilus, Vibrio, Streptococcus pneumoniae, Haemophilus influenzae, or Vibrio cholerae.
 11. The method of claim 1, wherein the surface comprises a cellular surface of a subject, an oral surface of a subject, or an in vitro surface.
 12. The method of claim 1, wherein the contacting comprises administering the neuraminidase inhibitor to a subject via subcutaneous, intra-muscular, intra-peritoneal, or intravenous injection; infusion; oral, nasal, or topical delivery; or a combination thereof.
 13. The method of claim 11 or 12, wherein the subject is a human, mouse, rat, bird, dog, cat, cow, horse, or pig.
 14. The method of claim 1, wherein the surface comprises a prosthetic graft, a catheter, a wound dressing, a wound site, a medical device, a contact lens, an implanted device, an oral device, a pipe, or industrial equipment.
 15. The method of claim 1, wherein the contacting comprises applying the neuraminidase inhibitor to a surface of a prosthetic graft, a catheter, a wound dressing, a wound site, or a medical device, and further comprises administering the neuraminidase inhibitor to the subject prior to or during or after the implantation of the prosthetic graft, the implantation of the catheter, the application to the wound site, the application of the wound dressing, or the implantation or insertion of the medical device.
 16. The method of claim 14, wherein industrial equipment is found in a GMP facility.
 17. The method of claim 14, wherein industrial equipment comprises a plumbing system.
 18. The method of claim 1, further comprising administering an effective amount of a therapeutic composition to the subject, the therapeutic composition being different than the neuraminidase inhibitor.
 19. The method of claim 18, wherein administering occurs sequentially or simultaneously.
 20. The method of claim 18, wherein the therapeutic composition comprises an antibiotic.
 21. The method of claim 20, wherein the antibiotic comprises a cephalosporin, a macrolide, a penicillin, a quinolone, a sulfonamide, a tetracycline, or any combination thereof.
 22. The method of claim 1, wherein the neuraminidase inhibitor is in a formulation of a paste, a liquid, a powder, a gel, or a tablet.
 23. The method of claim 22, wherein the paste formulation further comprises an abrasive.
 24. The method of claim 23, wherein the paste formulation is toothpaste.
 25. The method of claim 22, wherein the liquid formulation is a mouthwash.
 26. A method for treating a biofilm production-related disorder in a subject in need thereof, the method comprising administering to the subject an effective amount of a bacterial neuraminidase inhibitor, thereby treating the biofilm production-related disorder.
 27. The method of claim 26, wherein the subject is a human, mouse, rat, bird, dog, cat, cow, horse, or pig.
 28. The method of claim 26, wherein the disorder affects an epithelial surface, a mucosal surface, or a combination thereof.
 29. The method of claim 28, wherein the surface is a lung surface.
 30. The method of claim 26, wherein the biofilm production-related disorder is caused by a bacterium.
 31. The method of claim 26, wherein the disorder is pneumonia, cystic fibrosis (CF), otitis media, or chronic obstructive pulmonary disease (COPD).
 32. The method of claim 26, wherein the disorder is a medical device-related bacterial infection, the device being implanted or inserted into the subject.
 33. The method of claim 30, wherein the bacterium comprises a Gram-negative or Gram-positive bacterium.
 34. The method of claim 30, wherein the bacterium comprises Pseudomonas, Streptococcus, Haemophilus, Vibrio, Streptococcus pneumoniae, Haemophilus influenzae, Vibrio cholerae, or a combination thereof.
 35. The method of claim 26, wherein the neuraminidase inhibitor is a compound comprising Formula (X), Formula (I), or Formula (A).
 36. The method of claim 26, wherein the neuraminidase inhibitor is an antibody that specifically binds to the NanA protein of S. pneumoniae or a fragment thereof; an antisense RNA or antisense DNA that inhibits expression of a NanA polypeptide; a siRNA that specifically targets a NanA gene, a peptide comprising at least 10 amino acids of SEQ ID NO: 2 wherein the peptide competes with endogenous NanA for ligand binding; or a combination thereof.
 37. A method for identifying a compound that modulates neuraminidase activity, the method comprising: a) providing an electronic library of test compounds; b) providing atomic coordinates for at least twenty amino acid residues for the active site of Streptococcus neuraminidase listed in Table 2, wherein the coordinates have a root mean square deviation therefrom, with respect to at least 50% of the Cα atoms, of not greater than about 2 Å, in a computer readable format; c) converting the atomic coordinates into electrical signals readable by a computer processor to generate a three dimensional model of the neuraminidase; d) performing a data processing method, wherein electronic test compounds from the library are superimposed upon the three dimensional model of the neuraminidase; and e) determining which test compound fits into the binding pocket of the three dimensional model of the neuraminidase, thereby identifying which compound would modulate the activity of the neuraminidase.
 38. A method for identifying a compound that modulates neuraminidase activity, the method comprising: a) providing an electronic library of test compounds; b) providing atomic coordinates listed in Table 2 in a computer readable format for at least 5, 6, 7, 8, 9, 10, 11, or 12 amino acid residues located within about 10 Å of the neuraminidase active site, wherein the residues comprise 5 or more of the following residues: Arg347, Arg366, Asp372, Asp417, Ile442, Phe443, Phe565, Tyr590, Gln602, Glu647, Arg663, Tyr695, Tyr752, or Arg 721; c) converting the atomic coordinates into electrical signals readable by a computer processor to generate a three dimensional model of the neuraminidase active site; d) performing a data processing method, wherein electronic test compounds from the library are superimposed upon the three dimensional model of the neuraminidase active site; and e) determining which test compound fits into the binding pocket of the three dimensional model of the neuraminidase active site, thereby identifying which compound would modulate the activity of the neuraminidase.
 39. The method of claim 37 or 38, further comprising: f) obtaining or synthesizing the compound determined to bind to NanA or modulate the neuraminidase activity; g) contacting a bacterium with the compound in vitro; and h) determining whether the compound modulates neuraminidase activity using a biological assay.
 40. The method of claim 39, wherein the bacterium is a Gram-negative or Gram-positive bacterium.
 41. The method of claim 39, wherein the bacterium is Pseudomonas, Streptococcus, Haemophilus, Vibrio, Streptococcus pneumoniae, Haemophilus influenzae, or Vibrio cholerae.
 42. The method of claim 39, wherein the biological assay comprises a biofilm assay, an adherence assay, or a combination thereof.
 43. A compound identified by the method of claim 37 or claim 38, wherein the compound binds to the neuraminidase active site, and comes within 10 Å of amino acid residues listed in Table
 3. 44. The compound of claim 43, wherein the compound inhibits or reduces biofilm formation.
 45. The compound of claim 43, wherein the compound is a peptide that binds to a neuraminidase.
 46. The compound of claim 45, wherein the peptide is an anti-neuraminidase antibody or a binding fragment thereof.
 47. The compound of claim 45, wherein the peptide interacts with a protein having the amino acid sequence of SEQ ID NO:
 2. 48. The compound of claim 45, wherein the compound interacts with a protein having the amino acid sequence of SEQ ID NO:
 2. 49. A compound identified by the method of claim 39, wherein the compound binds to the neuraminidase active site, and comes within 10 Å of amino acid residues listed in Table
 3. 50. The compound of claim 49, wherein the compound inhibits or reduces biofilm formation.
 51. The compound of claim 49, wherein the compound is a peptide that binds to a neuraminidase.
 52. The compound of claim 51, wherein the peptide is an anti-neuraminidase antibody or a binding fragment thereof.
 53. The compound of claim 51, wherein the peptide interacts with a protein having the amino acid sequence of SEQ ID NO:
 2. 54. The compound of claim 51, wherein the compound interacts with a protein having the amino acid sequence of SEQ ID NO:
 2. 